guar gum

Thermoreversible gelling agents

2010-06-28T13:48:00.000-07:00

Gelatin
Gel formed on cooling. Molecules undergo a coil-helix transition followed by
aggregation of helices.
Agar
Gel formed on cooling. Molecules undergo a coil-helix transition followed by
aggregation of helices.
Kappa Carrageenan
Gel formed on cooling in the presence of salts notably potassium salts. Molecules
undergo a coil-helix transition followed by aggregation of helices. Potassium ions bind specifically to the helices. Salts present reduce electrostatic repulsion between chains promoting aggregation.
Iota Carrageenan
Gel formed on cooling in the presence of salts. Molecules undergo a coil-helix transition followed by aggregation of helices. Salts present reduce electrostatic repulsion between chains promoting aggregation.
Low methoxyl (LM) pectin
Gels formed in the presence of divalent cations, notably calcium at low pH (3±4.5).
Molecules crosslinked by the cations. The low pH reduces intermolecular electrostatic repulsions.
Gellan gum
Gels formed on cooling in the presence of salts. Molecules undergo a coil-helix transition followed by aggregation of helices. Salts reduce electrostatic repulsions between chains and promote aggregation. Multivalent ions can act by crosslinking chains. Low acyl gellan gels are thermoreversible at low salt concentrations but non-thermoreversible at higher salt contents (b 100mM) particularly in the presence of divalent cations.
Methyl cellulose and hydroxypropylmethyl cellulose
Gels formed on heating. Molecules associate on heating due to hydrophobic interaction of
methyl groups.
Xanthan gum and locust bean gum or konjac mannan
Gels formed on cooling mixtures. Xanthan and polymannan chains associate following the xanthan coil-helix transition. For locust bean gum the galactose deficient regions are involved in the association.

source: hydrocolloids

INS numbers for hydrocolloids

2010-06-28T13:42:00.000-07:00

           Polysaccharide                INS                     number Function
Alginic acid                      400      Thickening agent, stabiliser
Sodium alginate               401      Thickening agent, stabiliser, gelling agent
Potassium alginate           402      Thickening agent, stabiliser
Ammonium alginate         403      Thickening agent, stabiliser
Calcium alginate              404      Thickening agent, stabiliser, gelling agent,
                                                       antifoaming agent
Propylene glycol alginate         405      Thickener, emulsifier, stabiliser
(propane-1,2-diol alginate)
Agar                                          406      Thickener, stabiliser, gelling agent
Carrageenan (including            407      Thickener, gelling agent, stabiliser,
furcelleran)                                             emulsifier
Processed Euchema Seaweed   407a     Thickener, stabiliser
Bakers yeast glycan                  408      Thickener, gelling agent, stabiliser
Arabinogalactan                       409      Thickener, gelling agent, stabiliser
Locust bean gum                  410      Thickener, gelling agent
Oat gum                          411      Thickener, stabiliser
Guar gum                         412      Thickener, stabiliser and emulsifier
Tragacanth gum                      413      Emulsifier, stabiliser, thickening agent
Gum arabic (Acacia gum)       414      Emulsifier, stabiliser, thickener
Xanthan gum                           415      Thickener, stabiliser, emulsifier, foaming
                                                           agent
Karaya gum                             416      Emulsifier, stabiliser and thickening agent
Tara gum                                 417      Thickener, stabiliser
Gellan gum                      418      Thickener, gelling agent and stabiliser
Gum ghatti                          419      Thickener, stabiliser, emulsifier
Curdlan gum                         424      Thickener, stabiliser
Konjac flour                            425      Thickener
Soybean hemicellulose            426      Emulsifier, thickener, stabiliser, anticaking
                                                             agent
Pectin                                      440      Thickener, stabiliser, gelling agent,                                                              emulsifier
Cellulose                       460      Emulsifier, anticaking agent, texturiser,
                                             dispersing agent
Microcrystalline cellulose       460 (i)   Emulsifier, anticaking agent, texturiser,
                                                         dispersing agent
Powdered cellulose               460(ii)   Anticaking agent, emulsifier, stabiliser and
                                                                 dispersing agent
Methyl cellulose                    461      Thickener, emulsifier, stabiliser
Ethyl cellulose                      462      Binder, filler
Hydroxypropyl cellulose      463      Thickener, emulsifier stabiliser
Hydroxypropyl methyl cellulose      464      Thickener, emulsifier stabiliser
Methyl ethyl cellulose          465      Thickener, emulsifier, stabiliser, foaming
                                                         agent
Sodium carboxymethyl cellulose    466      Thickener, stabiliser, emulsifier
Ethyl hydroxyethyl cellulose 467      Thickener, stabiliser, emulsifier
Cross-linked sodium                        468      Stabiliser, binder
carboxymethyl cellulose
Sodium carboxymethyl                    469      Thickener, stabiliser
cellulose, enzymatically
hydrolysed

INS numbers for modified starches

2010-06-28T13:40:00.001-07:00

Modified starch*                 INS number
Dextrin (roasted starch)            1400
Acid treated starch                1401
Alkali treated starch            1402
Bleached starch                       1403
Oxidised starch                     1   404
Monostarch phosphate              1410
Distarch phosphate                    1412
Phosphated distarch                1413
Acetylated starch                       1414
Starch acetate                            1420
Acetylated distarch adipate        1422
Hydroxypropyl starch                 1440
Hydroxypropyl distarch phosphate    1442
Starch sodium octenyl succinate     1450
Starch, enzyme treated              1405

guar specification and guar gum gum packing

2010-06-23T06:30:00.000-07:00

Guar Gum Powder

Product Specification | Specialization | Packing

Botanical Name	: Cyamopsis tetragonolobus, L
Family	: Leguminosae
Part Used	: Seeds
Vernacular Name	: Guar
Imco Code	: Harmless
EINECS No	: 232-536-8
BTN	: 1302 3290
CAS No	: 9000-30-0
EEC No	: E-412

During last decade Guar has immerged as an important industrial raw material and Produced by man for thousands of years. India has been the single largest producer and exporter of Guar gum accounting for more than 80 percent of the global output and trade.

Guar has now assumed a larger role among the domesticated plants due to its unique functional properties.

India Ranks First in the production of guar which is grown in the North Western part of the Country Which mainly includes the states of Rajasthan, Gujarat, Haryana and Punjab. Other main countries are Pakistan, U.S.A and Brazil.

The by product of Guar Gum industry consisting of the outer seed coat and germ material is called guar meal. The Guar meal after gum Extraction is a potential source of protein and contains about 42% crude protein which is one and a half times more than the level of protein in guar seed. The protein content in guar meal is well comparable with that of oil cakes. It is used as a feed for live stock including poultry. Guar meal contains two deleterious factors i.e. residual guar gum and trypsin inhibitor, Toasting of Guar Gum improves its nutritive value in chicks. Toasted guar Meal can be used in limited quantity i.e. Up to 10% in Poultry diet. However it can replace groundnut cake by almost 100% in animal feeds.

Guar Gum (Galactomanan) is a high molecular weight carbohydrate polymer made up of a large number of mannose and galactose unit linked together. The crude Guar Gum is a grayish white powder 90% of which dissolves in water. It is non ionic polysaccharide based on the milled endosperm of the guar bean whose average composition is :

Hydrocolloid    : 23%
Fats                : 40%
Proteins          : 34%

The most important property of the Guar is its ability to hydrate rapidly in cold water to attain a very high viscosity at relatively low concentrations. Its specific colloidal nature gives the solution an excellent thickening power which is 6to10 timnes thicker than that obtained from starch . It is stable over a wide range of PH and it also improves the flowability and pumpability of the fluid. It is a superior friction loss reducing agent.

Product Specifications
Colour Appearance	: Off White
Moisture	: 10 - 12%
RIA	: 2 - 2.5%
Protein	: 4 - 4.5%
Ash	: 1% Max
Gum Content	: 80 - 85%
PH	: 6 - 7
Heavy Metals	: Less than 20 ppm.
Arsenic	: 3 ppm
Lead	: Less than 5 ppm
Viscosity(Cold)	: ( 1% Sol. Brookf. Visc.RVT Mod. At 25oC Spi. No. 3/4, 20 rpm 2 hrs and 24 hrs. 2 Hrs. 3500 - 4000 4500 - 5000 24 Hrs. 4000 - 4500 5000 - 6500
TPC	: Less than 10,000/gm. Less than 5000/gm.
Yeast Mold	: 300/gm 200/gm
Salmonella	: Ab. Ab.
E.Coli	: Ab. Ab.
Streptococcus	: Ab. Ab.
Pseudomonas	: Ab. Ab.
Passing	: 100 Mesh. 95 - 98% 200 Mesh. 95 - 98% 300 Mesh. 90 - 99%

Note : Above Specifications are In General. Material could be supplied according to the Buyer’s Specific Requirements.

Our Specialization In Guar Gum

Carboxy-methylated Guar Gum, Hydroxy-Propylated and Ethylated Guar Gum, Oxidised and Cationic Guar Gum are new Developments in the Industry.

Packing and storage: Packing will be carried out in 25 Kgs. HDPE Laminated paper bags with Poly Ethylene liners inside.

Shelf Life: Min One year from the date of production provided Stored in a cool and Dry Place.
source: guargum.co,in

Gomme de Guar E 412

2010-06-20T19:38:00.000-07:00

Nature du produit : légumineuse (Cyamopsis tetragonolobus)
Propriétés :le Guar est issu d'une légumineuse annuelle et se présente comme une farine de graine apportant un pouvoir épaississant à froid de texture courte, assez neutre au goût qui peut être mélangé à de nombreux ingrédients comme liant basse calorie. Le Guar est employé dans tous les usages réclamant un épaississant neutre : il apporte viscosité et améliore rétention en eau des recettes. C'est un produit très visqueux à de très faibles concentrations. De faible prix et très disponible, il fait l'objet de nombreuses transformations chimiques qui permettent d'étendre son usage à des applications non alimentaires comme les peintures ou les gels cosmétiques. Le Guar a le statut de fibre végétale soluble acalorique. Il est très neutre et ne développe pas de gels avec le Xanthane ni le Carraghénane comme d'autres molécules galactomannanes issues de la même famille botanique (Tara, Caroube, Cassia). Modifié de façon à réduire sa viscosité, il peut servir à remplacer des molécules comme les sucres ou les amidons.
Le Guar :
- Apporte de la viscosité à faible température (moins que tara, et caroube ou carraghénanes)
- Améliore la rétention d'eau des aliments (surtout guar modifié)
- Est facile d'usage : même proportion pour toutes les recettes, insensible au pH et à la présence de différents sels.
- Est insensible aux enzymes protéolytiques
- Est peu réactif avec d'autres molécules et peu à la température (ne change pas de propriétés)
- A une faible synergie avec le Xanthane sans toutefois donner un gel à température ambiante.
- Est économique car s'utilise à petite dose
Emploi : le Guar se dissout facilement et n'apporte que peu de goût et pas d'odeur. En grandes quantités il a une perception farineuse, collante. Souvent son taux d'usage ne dépasse pas 1%. Il est employé partout dans toutes sortes de recettes car sans interaction avec les autres additifs. En général, il sert surtout pour épaissir mais aussi dans les glaces et les produits surgelés pour limiter la formation de gros cristaux. En boulangerie le Guar donne du moelleux car il freine la levée et réduit les pertes d'eau de la pâte et freine le rancissement de l'amidon.
Préparation : Le Guar est une poudre blanche cassée, pratiquement inodore et assez farineuse.
- La mélanger avec 3 à 5 fois son poids en sucre (glucose, maltose ou saccharose) ou un autre ingrédient facile à disperser et plus abondant (farines, amidons).
- Le produit s'hydrate à froid mais il vaut mieux de la chaleur et un bon mixage.
- Il est synergique avec le Xanthane et constitue le produit le plus courant pour apporter de la viscosité. Il ne donne pas toute sa viscosité immédiatement et il faut préférer une qualité plus grossière pour limiter la viscosité immédiate mais faciliter la mise en solution.

source: chefsimon.com

guar gum total.

2010-06-15T10:58:00.000-07:00

I. History:

Guar, or clusterbean, (Cyamopsis tetragonoloba (L.) Taub) is a drought-tolerant annual legume that was introduced into the United States from India in 1903. Commercial production of guar in the United States began in the early 1950s and has been concentrated in northern Texas and southwestern Oklahoma. The major world suppliers are India, Pakistan and the United States, with smaller acreages in Australia and Africa. In the early 1980s, Texas growers were planting about 100,000 acres annually. They harvested about half of the planted acreage and plowed the rest under as green manure.

Unlike the seeds of other legumes, the guar bean has a large endosperm. This spherical-shaped endosperm contains significant amounts of galactomannan gum (19 to 43% of the whole seed), which forms a viscous gel in cold water. Guar gum is the primary marketable product of the plant. India and Pakistan export much of their guar crop to the United States and other countries in the form of partially processed endosperm material. World demand for guar has increased in recent years, leading to crop introductions in several countries.

Like other legumes, guar is an excellent soil-building crop with respect to available nitrogen. Root nodules contain nitrogen-fixing bacteria, and crop residues, when plowed under, improve yields of succeeding crops.

II. Uses:

In Asia, guar beans are used as a vegetable for human consumption, and the crop is also grown for cattle feed and as a green manure crop. In the United States, highly refined guar gum is used as a stiffener in soft ice cream, a stabilizer for cheeses, instant puddings and whipped cream substitutes, and as a meat binder. Most of the crop in the United States, however, is grown for a lower grade of guar gum, which is used in cloth and paper manufacture, oil well drilling muds, explosives, ore flotation, and a host of other industrial applications.

Guar gum consists of long branching polymers of mannose and galactose in a 2:1 ratio. After extraction of the gum, guar meal contains approximately 35% protein, which is about 95% digestible. The seed protein is low in methionine, like most legumes. Enough gum remains in the meal to make it an excellent feed pelleting material. Toasting improves its palatability to livestock and helps remove a trypsin inhibitor for non-ruminants.

III. Growth Habits:

Guar is an upright, coarse-growing summer annual legume known for its drought resistance. Its deep tap roots reach moisture deep below the soil surface. Most of the improved varieties of guar have glabrous (smooth, not hairy) leaves, stems and pods. Plants have single stems, fine branching or basal branching (depending on the variety) and grow to be 18 to 40 in. tall. Racemes are distributed on the main stem and lateral branches. Pods are generally 1 1/2 to 4 in. long and contain 5 to 12 seeds each. Seeds vary from dull-white to pink to light gray or black and range from 900 to 1,600 seeds/oz.

IV. Environment Requirements:

A. Climate:

Guar tolerates high temperatures and dry conditions and is adapted to arid and semi-arid climates. Optimum temperature for root development is 77 to 95°F. When moisture is limited, the plant stops growing but doesn't die. While intermittent growth helps the plant survive drought, it also delays maturity. Growing season ranges from 60-90 days (determinate varieties) to 120-150 days (indeterminate varieties). Guar responds to irrigation during dry periods. It is grown without irrigation in areas with 10 to 40 in. of annual rainfall. Excessive rain or humidity after maturity causes the beans to turn black and shrivel, reducing their quality and marketability. While profitable seed production in southern U.S. areas of high rainfall and humidity is likely to be limited, guar can be successfully grown as a green manure crop under these conditions. Guar varieties that require a particular daylength to flower or day-neutral have been described. Considering these high soil temperatures and long growing season, successful guar production in Wisconsin and Minnesota is very unlikely.

B. Soil:

Guar grows well under a wide range of soil conditions. It performs best on fertile, medium-textured and sandy loam soils with good structure and well-drained subsoils. Guar is susceptible to waterlogging. Guar is considered to be tolerant of both soil salinity and alkalinity.

Guar is an excellent soil-improving crop and fits well in a crop-rotation program with grain sorghum, small grains or vegetables. In Australia, guar was found to add 196 lb N/acre to the soil-plant system over three years. Increased yields can be expected from crops following guar because of increased soil nitrogen reserves. When used in rotation with cotton in Texas, researchers measured a 15% yield increase in cotton.

C. Seed Preparation and Germination:

Select seed that is uniform in color and size and is free from other crop and weed seed. New guar varieties have been released that have some resistance to diseases that once devastated fields of the crop. To prevent disease problems, select certified seed that does not contain seed of older varieties with less disease resistance.

Seed should be inoculated just before planting with a special guar inoculant or the cowpea (Group "E") inoculant. Exposure of inoculum to sunlight, heat and drying before planting can impair the effectiveness of the nitrogen-fixing bacteria. Seed should be planted in moist soil within 2 hours after inoculation. Fungicidal seed treatments may inhibit inoculation.

V. Cultural Practices:

A. Seedbed Preparation:

The seedbed should be firm and weed-free. Soil in the row should be ridged slightly to facilitate harvest of low-set beans.

B. Seeding Date:

Guar should be planted when soil temperature is above 70°F; the optimum soil temperature for germination is 86°F. A warm seedbed, adequate soil moisture and warm growing weather are essential for establishment of a stand. In Texas, June plantings of guar produce more reproductive buds than July plantings, resulting in substantially higher yields. Thus, production of this crop in the Upper Midwest is unlikely.

C. Method and Rate of Seeding:

1. Method of Planting: Guar is usually planted in 36 to 40 in. rows with a row crop planter. However, it can be broadcast seeded or planted in narrower rows with a grain drill if moisture is adequate. A planting depth of 1 to 1 1/2 in. is usually recommended. If guar seed is crushed, gumming or clogging of equipment may occur. To prevent clogging, holes on the bottom sides of the plates should be straight, rather than beveled or tapered. Adding graphite or a dry detergent to the seed box and reducing seed weight on the plates by filling the planter box only about one-third full may also help prevent gumming during planting.

2. Rate of Planting: Although some studies have found little effect on yield when seeding rates ranged from 5 to 44 lb seed/acre, other researchers have indicated an optimum seeding rate of 5 to 9 viable seeds/ft of row (30 in. rows). Current Texas recommendations are 5 lb/acre for 30 in. rows and 12 lb/acre for broadcast. Broadcasting should be practiced only where moisture is sufficient to support the higher plant population.

D. Fertility and Lime Requirements:

Nitrogen is not thought to be limiting in guar when the plants are well nodulated. Like most legumes, guar usually requires application of a rather high level of phosphorus (20 to 30 lb of P₂O₅/acre) and medium levels of potash (40 to 50 lb of K₂O/acre). For highest yield, fertilize according to soil test results. Apply fertilizer below the seed before planting or to the side and below the seed at planting. Sulfur fertilizers have been found to affect guar on some soils, and zinc deficiency is a common problem in India.

Moderately alkaline soils are considered desirable for guar crop production (pH 7.0 to 8.0).

E. Variety Selection:

There have been notable improvements in guar varieties developed in the last 30 years. The newer cultivars are much more disease resistant with higher yields. Pod set in improved varieties is higher, and pods are well distributed on the main stem and branches, increasing harvest efficiency. The multiple branching of these newer cultivars also produces more pods.

Only the earliest-maturing varieties are recommended for production in Wisconsin and Minnesota.

Brooks, released in 1964, was the first improved variety, replacing Texsel and Groehler. Brooks has been grown on most of the guar acreage since 1966, but is rapidly being replaced by two newer releases, Kinman and Esser. Brooks is high-yielding and resistant to the major guar diseases, Alternaria leaf spot and bacterial blight. It is medium to late in maturity. Plants have a fine-branching growth habit and small racemes of medium-sized pods. Leaves and stem are glabrous. The seed is of medium size.

Hall is a slightly later-maturing variety than Brooks, and therefore not recommended for production in the Upper Midwest. It is resistant to bacterial blight and Alternaria leaf spot. Plants are relatively tall, coarse, finely branched, and produce small racemes of medium-sized pods. Leaves and stems are glabrous. This variety is best adapted to heavier soil types and higher elevations.

Mills is an early-maturing variety which also is resistant to bacterial blight and Alternaria leaf spot. Plants are short and finely branched and produce small racemes with relatively large pods. Leaves and stems are pubescent (hairy). Seeds are larger than those of Brooks and Hall. In dry seasons, Mills does not grow tall enough for efficient harvest. Yields are generally lower than those of Brooks and Hall.

Kinman, released by the Texas Agricultural Experiment Station, the USDA-ARS and the Oklahoma Agricultural Experiment Station in 1975, is derived from Brooks and Mills. Kinman is about 7 days earlier in maturity than Hall and of the same maturity as Brooks. It is highly resistant to bacterial leaf blight and Alternaria leaf spot. Kinman is slightly taller and coarser-stemmed than Brooks, but less so than Hall. It is fine branched and produces small-to-medium sized racemes. Seed pods are medium in length and generally contain from 7 to 9 seeds each. Seed of Kinman is slightly larger than Brooks. In 41 yield trials at eight locations in Texas and Oklahoma from 1971 to 1976, Kinman produced 17% more seed than Brooks.

Esser, released with Kinman in 1975, is a selection from progeny of the same Brooks × Mills cross. It is medium to late in maturity and therefore is probably not a good cultivar for Wisconsin and Minnesota. It has high resistance to Alternaria leaf spot and bacterial leaf blight. Esser has shown superior disease tolerance to Brooks and Kinman under severe bacterial blight conditions. Esser plants have Brooks' fine branching growth habit, but Esser has stronger main stems and fewer lateral branches. Esser produces small racemes with medium-sized pods.

Lewis, released by the Texas Agricultural Station and the USDA- ARS in 1986, is a selection from a cross of a glabrous parent with a pubescent (hairy) parent. Lewis is a medium-to-late maturing variety that is highly resistant to Alternaria leaf spot and bacterial leaf blight. Leaves, stems and pods are glabrous. Plants have a basal branching growth habit. The main stem and the basal branches possess short internodes with racemes initiated at each node over the entire plant. Plants are of average height, and racemes and pods are of medium length. Pods generally contain 5 to 9 seeds of average size. In 10 yield tests at five Texas locations during 1980-1983, Lewis produced mean seed yields approximately 25% higher than Kinman and 21% higher than Esser (Table 1).

Table 1. Yields of five guar varieties in Texas from 1980 to 1983.

Year/location	Variety
Year/location	Lewis	Kinman	Esser	Brooks	Hall
	lb/a
1980
Chillicothe¹	1,474	1,149	1,135	1,087	876
1981
Chillicothe	844	781	666	617	458
Iowa Park	1,052	941	1,116	969	932
Stephenville¹	1,415	1,011	1,168	1,022	922
1982
Chillicothe	1,631	1,275	1,450	1,319	1,186
Corpus Christi	935	718	653	676	467
Munday	1,022	756	733	689	436
Stephenville¹	1,197	1,042	875	1,240	1,009
1983
Chillicothe²	454	354	428	239	310
Munday²	997	794	900	727	676
Mean	1,102	882	912	858	727

¹Test received supplemental irrigation.
²Disease was present in the test.
Source: Stafford, R.E. 1986. Lewis: A New Guar Variety. Texas Agricultural Experiment Station Bulletin L-2177, February 1986. Texas A&M University System, College Station, Texas.

F. Weed Control:

Young guar plants grow slowly and are particularly susceptible to weed problems. Weeds can reduce yields and create harvesting problems.

1. Mechanical control: Guar should not be seeded in fields heavily infested with Johnsongrass (Sorghum halepense) and other perennial weeds. Early preparation of land and mechanical cultivations during the growing season will help minimize weed problems. Covering the lower branches during cultivation may promote development of disease and increase harvest difficulties.

2. Chemical: Treflan (trifluralin) is registered for use on guar as a preplant incorporated treatment to control most annual grass and several annual broadleaf weeds. Follow label instructions carefully for different soil types.

G. Diseases and Their Control:

Selecting disease-resistant varieties and high-quality certified seed is the best defense against disease problems. There are two major diseases of guar worldwide:

1. Alternaria leaf or target spot (Alternaria cucumerina var. cyamopsidis): This fungal disease may become severe during periods of heavy dew and high humidity. It causes a brown target-like lesion on the leaf between bloom and pod set. As the disease progresses, lesions enlarge, join and cause leaf drop.

2. Bacterial blight (Xanthomonas cyamopsidis): This seed-borne disease can cause loss of plants from the seedling stage until maturity. Symptoms include large angular necrotic lesions at the tips of leaves, which cause defoliation and black streaking of the stems. This is potentially the greatest disease hazard to guar.

H. Insects and Other Predators and Their Control:

The guar midge (Contarinia texana) is the primary guar insect pest in the Southwest. Heavy midge infestations have caused up to 30% loss in seed production. Guar midge infestations are generally heavier in fields with sandy or sandy loam soils.

Damage to guar is caused by the larvae, which develop in the guar buds. Infested buds eventually dry up and fall from the plant. The adult female midge deposits her eggs in developing buds. After larvae complete their development, they drop from the buds to the ground to pupate. There are several generations each year.

Rainfall or sprinkler irrigation can reduce midge populations drastically. However, field inspection should continue because midge infestation problems may increase again as a result of improved growing conditions. Control midges while guar is producing buds -- primarily between 45 and 90 days after emergence.

Other guar insect pests include the gall midge (Asphondylia sp.), three-cornered alfalfa hoppers, pea aphids, white grubs, thrips, and whiteflies. Storage pests have not been a problem with guar.

I. Harvesting:

Since guar beans generally do not shatter, the crop can be direct-combined as soon after maturity as possible. Harvest does not generally take place until after frost in northern regions. At maturity, the seed pods are brown and dry, and seed moisture content is less than 14%. Gramoxone (paraquat) can be used as a harvest aid to speed up drying and to kill weeds prior to frost. Apply when pods are fully mature. Preharvest interval is 4 days. Do not graze treated areas or use the treated forage for animal feed.

Guar beans can be harvested with an ordinary grain combine. The cylinder should be slowed and the combine speed reduced to a rate that will permit proper threshing of the beans. A high fan speed can be used to clean out foreign material. Reel speed should be slightly greater than combine ground speed. Improper reel speed can shatter seed pods. Reels should be set just deep enough in the guar to control the stalks, and should be about 6 to 12 in. ahead of the cutterbar. Some operators replace the wooden reel bats with 1/2 in. steel rods to reduce shattering. When harvested for hay, guar leaves drop readily unless extreme care is taken during the curing process. For hay, the crop should be cut when the first lower pods turn brown.

Guar can be harvested for seed and then plowed under or used as a mulch. If seed is not harvested, guar used for green manure should be turned under when the lower pods begin to turn brown.

J. Drying, Storage and Seed Quality:

Following harvest, the seed is graded for size and cleaned to remove shrunken seed and crop residue. Little information is available on optimum storage conditions for guar, but this has not been identified as a problem in most production guides. Following cleaning, milling for gum extraction may proceed.

The principal factors that decrease seed quality in guar are seed blackening and the production of small and shrunken seed. White seed is preferred for many food applications, and black seed is often discounted. Darkening tends to follow patterns of increasing rainfall, especially when it occurs during the period of seed maturation.

Small seed contains less endosperm and therefore is less desirable for milling. Late flowering, diseases, insects and low moisture can cause small seed (preferred size is 4 mm).

VI. Yield Potential and Performance Results:

Production practices and rainfall during the growing season cause seed yields to vary from about 300 to 2,000 lb/acre. Yields of several varieties in Texas are shown in Table 1. Experimental plantings of guar at Rosemont, Minnesota, have resulted in plants that bloomed but produced very little seed.

VII. Economics of Production and Markets:

Income and production costs for guar vary from year to year and according to soil types. Production costs often vary by $20 to $40/acre between farms because of different fertilizer usage and other production practices.

Demand for guar is increasing because of the wide use of the gum in more products and efforts of dealers to obtain a larger percentage of the gum from domestic sources. Growth in the early 1980s was estimated at 10% annually. Grade factors considered by the purchaser are the moisture, foreign material and test weight. Identify a market and secure a contract, if possible, before growing guar for bean production.

The value of guar as a soil builder to increase yields of succeeding crops should not be overlooked when considering guar as an alternative crop.

VIII. Information Sources:

Guar: A Potential Industrial Crop for the Dry Tropics of Australia. 1982. K.J. Jackson, J.A. Doughton. J. of the Australia Inst. of Agric. Science.
Kinman and Esser - New Guar Varieties. 1975. Texas Agricultural Experiment Station Bulletin L-1356. Texas A&M University System, College Station, Texas.
Lewis - A New Guar Variety. 1986. R.E. Stafford. Texas Agricultural Experiment Station Bulletin L-2177. Texas A&M University System, College Station, Texas.
Keys to Profitable Guar Production. L.D. Tripp, D.A. Lovelace, E.P. Boring. Texas Agricultural Extension Service Bulletin B- 1399. Texas A&M University System, College Station, Texas.
Guar: Production, Nutrition and Industrial Use. 1979. R. Whistler, and T. Hymowitz. Purdue University Press, Lafayette, Indiana 47907.

References to pesticide products in this publication are for your convenience and are not an endorsement of one product over other similar products. You are responsible for using pesticides according to the manufacturer's current label directions. Follow directions exactly to protect people and the environment from pesticide exposure. Failure to do so violates the law.

source: Purdue.edu

Nutritional and medicinal effects

2010-06-15T02:23:00.001-07:00

Guar gum is a water-soluble fiber that acts as a bulk forming laxative, and as such, it is claimed to be effective in promoting regular bowel movements and relieve constipation and chronic related functional bowel ailments such as diverticulosis, Crohn's disease, colitis and irritable bowel syndrome, among others. The increased mass in the intestines stimulates the movement of waste and toxins from the system, which is particularly helpful for good colon health, because it speeds the removal of waste and bacteria from the bowel and colon. In addition, because it is soluble, it is also able to absorb toxic substances (bacteria) that cause infective diarrhea.

Several studies have found significant decreases in human serum cholesterol levels following guar gum ingestion. These decreases are thought to be a function of its high soluble fiber content.^{[citation needed]}

Guar gum has been considered of interest with regards to both weight loss and diabetic diets. It is a thermogenic substance.^[11] Moreover, its low digestibility lends its use in recipes as a filler, which can help to provide satiety, or slow the digestion of a meal, thus lowering the glycemic index of that meal. In the late 1980s, guar gum was used and heavily promoted in several weight loss products. The U.S. Food and Drug Administration eventually recalled these due to reports of esophageal blockage from insufficient fluid intake, after one brand alone caused at least 10 users to be hospitalized and a death.^[12] For this reason, guar gum is no longer approved for use in over-the-counter weight loss aids in the United States. Moreover, a meta-analysis that combined the results of 11 randomized controlled trials found that guar gum supplements were not effective in reducing body weight.^[13]

Two Japanese studies using rats showed that guar gum supports increased absorption of calcium occurring in the colon instead of in the small intestine. This means that lesser amounts of calcium may be consumed in order to obtain its recommended minimum daily intake (RDI). This has obvious implications for reduced calorie diets, since calcium rich dairy products tend to be high in calories.

However, guar gum is also capable of reducing the absorbability of dietary minerals (other than calcium), when foods and/or nutritional supplements containing them are consumed concomitantly with it. However, this is less of a concern with guar gum than with various nonsoluble dietary fibers.

Some studies have found guar gum to improve dietary glucose tolerance. Research has revealed that the water soluble fiber in it may help people with diabetes by slowing the absorption of sugars by the small intestine. Although the rate of absorption is reduced the amount of sugar absorbed is the same overall. This helps diabetic patients by lowering the amount of insulin needed to keep the blood glucose at a normal level.

It also functions as an adjuvant for diabetic drugs that are sometimes employed for the treatment of noninsulin dependent diabetes. The effect is to help lower blood glucose levels. Thus, diabetic patients who are taking drugs should consult their doctors before supplementing with guar gum.

Source: Wikipedia

2010-06-15T02:20:00.000-07:00

Guar gum, also called guaran, is a galactomannan. It is primarily the ground endosperm of guar beans. The guar seeds are dehusked, milled and screened to obtain the guar gum.^[1] It is typically produced as a free flowing, pale, off-white colored, coarse to fine ground powder.

Production

Guar gum is extracted from the guar bean, where it acts as a food and water store. The guar bean is principally grown in India and Pakistan, with smaller crops grown in the U.S., Australia, China, and Africa. The drought-resistant guar bean can be eaten as a green bean, fed to cattle, or used in green manure.

Trade

According to a Reuters report, India accounts for about 80 percent of the global trade in guar products.^[2]^[3]. India exported 11 billion rupees worth of guar products in 2007/08 financial year ending March 2008. Pakistan trails India in the global trade. Industrial guar gum is the most sought after guar product, and accounts for about 45 percent of the total demand. Industrial gum is used as a controlling agent in oil wells to facilitate easy drilling and prevent fluid loss.^[4]

In 2007, the Indian industry was hit by a contamination crisis when the European Union suspended imports of Indian guar gum after excessive levels of dioxins were found in one shipment^[3].

Properties

Chemical composition

Chemically, guar gum is a polysaccharide composed of the sugars galactose and mannose. The backbone is a linear chain of β 1,4-linked mannose residues to which galactose residues are 1,6-linked at every second mannose, forming short side-branches.

Solubility and viscosity

Guar gum is more soluble than locust bean gum and is a better emulsifier as it has more galactose branch points. Unlike locust bean gum, it is not self-gelling.^[5] However, either borax or calcium can cross-link guar gum, causing it to gel. In water it is nonionic and hydrocolloidal. It is not affected by ionic strength or pH, but will degrade at pH extremes at temperature (e.g. pH 3 at 50°C).^[5] It remains stable in solution over pH range 5-7. Strong acids cause hydrolysis and loss of viscosity, and alkalies in strong concentration also tend to reduce viscosity. It is insoluble in most hydrocarbon solvents.

Guar gum shows high low-shear viscosity but is strongly shear-thinning. It is very thixotropic above concentration 1%, but below 0.3% the thixotropy is slight. It has much greater low-shear viscosity than that of locust bean gum, and also generally greater than that of other hydrocolloids. Guar gum shows viscosity synergy with xanthan gum. Guar gum and micellar casein mixtures can be slightly thixotropic if a biphase system forms.^[5]^[6]

Thickening

Guar gum is economical because it has almost 8 times the water-thickening potency of cornstarch - only a very small quantity is needed for producing sufficient viscosity. Thus it can be used in various multi-phase formulations: as an emulsifier because it helps to prevent oil droplets from coalescing, and/or as a stabilizer because it helps to prevent solid particles from settling.

Ice-crystal growth

Guar gum retards ice crystal growth non-specifically by slowing mass transfer across the solid/liquid interface. It shows good stability during freeze-thaw cycles.^[5]

Grading

Manufacturers define different grades and qualities of guar gum by the particle size, the viscosity that is generated with a given concentration, and the rate at which that viscosity develops. Coarse-mesh guar gums, will typically — but not always — develop viscosity more slowly. They may achieve a reasonably high viscosity, but will take longer to achieve. On the other hand, they will disperse better than fine-mesh, all conditions being equal. A finer mesh, like a 200 mesh, requires more effort to dissolve.^[7]

Industrial applications

Textile industry – sizing, finishing and printing
Paper industry – improved sheet formation, folding and denser surface for printing
Explosives industry – as waterproofing agent mixed with ammonium nitrate, nitroglycerin etc.
Pharmaceutical industry – as binder or as disintegrator in tablets
Cosmetics and toiletries industries – thickener in toothpastes, conditioner in shampoos (usually in a chemically modified version)
Oil and gas drilling, hydraulic fracturing
Mining
Hydroseeding – formation of seed bearing "guar tack"^[8]

Food applications

The largest market for guar gum is in the food industry. In the U.S., differing percentages are set for its allowable concentration in various food applications.^[9] In Europe, guar gum has EU food additive code E412.

Applications include:

Baked goods - increases dough yield, gives greater resiliency, and improves texture and shelf life; in pastry fillings, it prevents "weeping" (syneresis) of the water in the filling, keeping the pastry crust crisp.^[10]

Dairy - thickens milk, yogurt, kefir, and liquid cheese products; helps maintain homogeneity and texture of ice creams and sherbets

Meat - functions as lubricant and binder.

Dressing and sauces - improves the stability and appearance of salad dressings, barbecue sauces, relishes, ketchups and others

Misc. - Dry soups, instant oatmeal, sweet desserts, canned fish in sauce, frozen food items and animal feed.

Source: Wikipedia

guar gum uses

2010-06-15T02:13:00.000-07:00

GuarGum Applications

Guar Gum and its derivatives are widely used in various industries as per its needs. It is used in industries such as food, animal feed, textile, pharmaceuticals, personal care, health care, nutrition, cosmetics, paper, explosives, mining and oil drilling.

Guar Gum is mainly used as a

Natural thickener
Emulsifier
Stabiliser
Bonding agent
Hydrocolloid
Gelling agent
Soil Stabiliser
Natural fiber
Flocculants
Fracturing agent

Industry wise Application of Guar Gum

Food Grade Guar Gum Powder

In Food Industry Guar gum is used as gelling, viscosifying, thickening, clouding, and binding agent as well as used for stabilization, emulsification, preservation, water retention, enhancement of water soluble fiber content etc.

Some food products in which guar gum powder is used:

Ice Cream, soft drinks & concentrates, puddings
Chocolate milk, flavoured milks
Jams, jellies, fruit spreads, jelly sweets
Bread, biscuit and other baked foods
Ham and sausages
Soft cheese and cheese spreads
Canned or retorted food of fish and meat
Myonnaise, ketchup, sauce and dressings
Noodles and pasta

In Frozen Food Products: Guar gum reduces crystal formation, act as a binder & stabilizer to extend shelf life of Ice-cream.

In Baked Food Products: Guar gum provides unparallel moisture preservation to the dough and retards fat penetration in baked foods.

In Dairy Products: Guar Gum improves texture, maintains uniform viscosity and color.

In Sauces & Salad preparations: Guar gum acts as a water binder in sauces & salad dressings and reduces water & oil separation.

In Confections: Guar gum controls viscosity, bloom, gel creation, glazing & moisture retention to produce the highest grade confectionary.

In Beverages: Guar gum provides outstanding viscosity control and reduces calories value in low calories beverages.

In Pet Food: Guar gum forms gels & retains moisture, acts as a thickening, stabilizer and suspending agent for veterinary preparations.

Guar Gum for Pharmaceutical Industries

Guar gum powder is used in pharmaceutical industries as Gelling/ Viscosifying/Thickening, Suspension, Stabilization, Emulsification, Preservation, Water Retention/Water Phase control, Binding, Clouding/Bodying, Process aid, Pour control for following applications.

In tablet manufacturing it is used as a binder and disintegrating agent and in micro-encapsulation of drugs.

Suspensions
Anti-acid formulations
Tablet binding and disintegration agent
Controlled drug delivery systems
Slimming aids
Nutritional foods

Guar Gum is an important non-caloric source of soluble dietary fiber. Guar gum powder is widely used in capsules as dietary fiber. Fiber is a very important element of any healthy diet. It is useful in clear and cleanses the intestinal system since fiber can not be digested. This keeps the intestines functioning properly and also improves certain disorders and ailments. All natural fiber diet works with body to achieve a feeling of fullness and to reduce hunger. Its synergistic mix of guar gum and fiber mixture when taken with water expands in stomach to produce a feeling of fullness.

Guar Gum for Cosmetic Industries

Used as a thickener, protective colloid in Skin care products, creams and lotions.
Also used in toothpaste, and shaving cream for easy extruding from the container tube.

Industrial Grade Guar Gum Powder

In Industrial Applications guar gum powder is a very versatile product and finds its different applications, as thickening, sizing agent, wet-end strength additive, gelling agent and water barrier, flocculation aid, for waste water treatment, as emulsifier, binder. Also used for mud formulations, enhanced oil recovery, polymer flooding, well treatment, lost circulation plugging etc.

Guar Gum Industrial grade powder is used in some industries as follows:

Textile Printing & Sizing
Fire Fighting
Ceramics
Pharmaceuticals
Printing Inks
Mosquito Mats
Synthetic Resins
Paper Industry
Battery Electrolytes
Water Treatment
Floatation Agent
Water Paint
Carpet Printing
Oil Well Drilling
Explosives
Mining

Guar Gum for Paper Industry

Guar Gum provides better properties compared to substitutes.
It gives denser surface to the paper used for printing.
Guar Gum imparts improved erasive and writing properties, better bonding strength and increased hardness.
Due to improved adhesion, it gives better breaking, mullen and folding strengths.

Guar Gum for Textile Industry

Guar Gum gives excellent film forming and thickening properties when used for textile sizing, finishing and printing.
It reduces warp breakage, reduces dusting while sizing and gives better efficiency in production.

Guar Gum in Oil Field Applications

Industrial grade Guar gum powder are use in oil well fracturing, oil well stimulation, mud drilling and industrial applications and preparations as a stabilizer, thickener and suspending agent.
It is a natural, fast hydrating dispersible guar gum and is diesel slurriable.
In the oil field industry, guar gum is used as a surfactant, synthetic polymer and deformer ideally suited for all rheological requirements of water-based and brine-based drilling fluids.
High viscosity Guar Gum products are used as drilling aids in oil well drilling, geological drilling and water drilling.
These products are used as viscosifiers to maintain drilling mud viscosities that enable drilling fluids to remove drill waste from deep holes.
Guar gum products also reduce friction in the holes, and so minimising power requirements. Some Guar Gum products act to minimise water loss should occur in broken geological formations.

Guar Gums Metallurgical and Mining

Guar gum is widely used as a flocculants to produce liquid solid separation
Guar gum is also used in flotation. It acts as a depressant for talc or insoluble gangue mined along with the valuable minerals

Guar Gums Explosives Applications

Gelling agents for gel sausage type explosives and pumpable slurry explosives
Cross linking agents for gel and slurry explosives systems

2010-06-09T02:05:00.000-07:00

Source

Guar gum (E412, also called guaran) is extracted from the seed of the leguminous shrub Cyamopsis tetragonoloba, where it acts as a food and water store.

Structural unit

Guar gum is a galactomannan similar to locust bean gum consisting of a (1" width="22" height="10">4)-linked β-D-mannopyranose backbone with branchpoints from their 6-positions linked to α-D-galactose (that is, 1" width="22" height="10">6-linked-α-D-galactopyranose). There are between 1.5 - 2 mannose residues for every galactose residue.

Molecular structure

Guar gum is made up of non-ionic polydisperse rod-shaped polymers consisting of molecules (longer than found in locust bean gum) made up of about 10,000 residues. Higher galactose substitution also increases the stiffness (that is, decreases the flexibility) but reduces the overall extensibility and radius of gyration of the isolated chains [291]. The galactose residues prevent strong chain interactions as few unsubstituted clear areas have the minimum number (about 6) required for the formation of junction zones. Of the different possible galactose substitution patterns, the extremes of block substitution and alternating substitution give rise to the stiffer, with greater radius of gyration, and most flexible conformations respectively (random substitution being intermediate) [291]. Its persistence length is greater than that for locust bean gum at about 10 nm [1378]. If the galactose residues were perfectly randomized, it unlikely that molecules would have more than one such area capable of acting as a junction zone, so disallowing gel formation. A block substitution pattern, for which there is some experimental evidence [322], would allow junction zone formation if the blocks were of sufficient length. Enzymatic hydrolysis of some of the galactose side chains (for example, using legume α-galactosidase) may allow guar gum to be used to replace a dwindling locust bean gum supply.

Functionality

Guar gum is an economical thickener and stabilizer. It hydrates fairly rapidly in cold water to give highly viscous pseudoplastic solutions of generally greater low-shear viscosity when compared with other hydrocolloids and much greater than that of locust bean gum. High concentrations (~ 1%) are very thixotropic but lower concentrations (~ 0.3%) are far less so. Guar gum is more soluble than locust bean gum and a better emulsifier as it has more galactose branch points. Unlike locust bean gum, it does not form gels but does show good stability to freeze-thaw cycles. Guar gum shows high low-shear viscosity but is strongly shear-thinning. Being non-ionic, it is not affected by ionic strength or pH but will degrade at pH extremes at temperature (for example, pH 3 at 50°C). It shows viscosity synergy with xanthan gum. With casein, it becomes slightly thixotropic forming a biphasic system containing casein micelles.

guar gum uses

2010-06-09T02:04:00.000-07:00

Guar gum is a white to creamy coloured, free flowing powder and free from extraneous matter. Its ability to suspend solids, bind water by hydrogen bonding, control the viscosity of aqueous solutions and form strong tough films, have accounted for its rapid growth and use in various industries. Industrial grade Guar Gum is used in Paper, Textile Processing, Explosives, Detergents, Drilling Fluids, Ceramics, Paints and many other industries. The purified grade is used in the Pharmaceuticals, Dialectic, Cosmetic and Food Industries. Guar gum is a natural product, and because it has the ability to swell by hydrolyzing with water, it can be used in a variety of water systems for food and industrial applications. Guar gum can viscosify, stabilize, and emulsify water systems as well as bind moisture to itself.

Applications of Guar Gum
Guar Gum for Food, Pharmaceutical & Dialectic Industries:

Guar Gum Powder for Food, Pharmaceutical, Dialectic Industries

Guar Gum in pure form when used in the ice creams acts as a superior stabiliser and gives the right texture by preventing the formation of coarse ice crystals. Guar gum is used as a thickener and stabiliser in food and pharmaceuticals. The present trend is to use agro-based Guar Gum only for Ice cream, without any Additives or Preservatives, in place of Carboxymethyl Cellulose (CMC), which is a chemical derivative of cellulose and therefore objectionable, in Europe , Japan and America for Food Products.
In squashes, sauces and sherbets, it functions as a suspending agent and as a stabiliser. It has got a low calorific food value, and it is an excellent bulk laxative. It is used as a suspending agent for Calamine and Barium Sulphate. It increases the mechanical strength of tablets during pressing. It readily disperses in water. It is used in jellies and ointments as a thickener. It imparts good viscosity and gives better foam stability in shampoos. It is compatible with glycerol and is used in tooth-pastes.
Guar Gum for Bakery Industry:

It is used in the Bakery Industry, in Bread, Pastry, Cakes and Cookies. On dry mixing prior to dough making in Bread, it helps to retain moisture and hence the weight of Bread. It keeps the Bread smooth, pliable and fresh for longer time and imparts milky white bleached appearance to Bread.
Guar Gum Powder for Bakery Industry
Guar Gum for Grass Growing / Erosion Control :

Guar Gum Powder for Grass Growing, Erosion Control Industry
Guar gum has a major application in the grass growing and erosion control industry where it is used as a water binder to retain moisture on the soil surface, particularly on slopes where the addition of guar gum to the water systems will help to anchor the hydro seeding mixture to the slopes and seal in the moisture. It is used in systems that protect against hydraulic lift and shear forces created by high-volume discharges, so whether grass is grown on slopes, channels, or straight-aways, from roadside to residential lawns, golf urses to athletic fields to parks, using guar gum prevents soil erosion and enhances grass growing.

Guar Gum for Cosmetics:

Guar Gum is soluble in cold and hot water and this solution is not attacked by Bacteria. Guar Gum Protective colloid forming capacity results in emulsion stabilisation. It is also a good thickener and suspending agent in Cosmetics.

Guar Gum Powder for Cosmetics
Guar Gum for Fish Farming :

Guar Gum Powder for Fish Farming
Guar gum is used as a binder in the fish feed pellets. The binder keeps the pellets from disintegrating quickly when placed in water and greatly reduces the consumption of fish feed in the pond.
Guar Gum for Oil Well Drilling :

Guar Gum when used in oil well drilling muds, gives a better colloid thereby reducing water losses. It regulates the viscosity of mud solution, stabilises and regulates the flow properties of the drilling muds. We are making Gelling Agent II and Gelling Agent III.

*

SPECIFICATION OF GELLING AGENT GRADE II
*

SPECIFICATION OF GELLING AGENT GRADE III

Guar Gum Powder for Oil Well Drilling
Guar Gum for Explosives (as Water Blocking Agent in Nitro-glycerine, Slurry Explosives, Ammonium Nitrate & Dynamite Explosives):

Guar Gum Powder for Explosives
By mixing Guar Gum in Ammonium Nitrate, Nitro-glycerine & Oil Explosives, even in wet conditions explosive property is maintained. This is due to the better swelling, water blocking and gelling properties of Guar Gum.

Guar Gum for Paper Industry:

Guar Gum is used in paper manufacture as a better additive. It gives denser surface to the paper used for printing. Guar Gum imparts improved erasive and writing properties, better bonding strength and increased hardness. Due to improved adhesion, it gives better breaking, mullen and folding strengths.

Guar Gum Powder for Paper Industry
Guar Gum for Mining :

Guar Gum Powder for Mining
Guar gum is used in mining potash, gold, copper and platinum group metals (PGM) as a flocculent and as a depressant.

Guar Gum is also used in the following industries:

* Insecticides & Pesticides
* Detergents & Soaps
* Paint Industry
* Electrodes & Brazing Fluxes
* Plywood
* Leather Industry
* Foundry
* Tobacco Processing
* Pencils Crayons
* Adhesives
* Mosquito Coils

Guar Gum an Introduction

2010-05-23T23:25:00.000-07:00

Guar Gum is an important ingredient in producing food emulsifier, food additive, food thickener and other guargum products. India is the largest producer of guar gum products. Its guar gum exporters, guar gum manufacturers, guar gum products suppliers, foo emulsifier exporter have reached to many countries and today there is a lot of demand for indian guar gum products, food additives, food thickener and other allied guar gum products.

Guar gum is extracted from the seed of Cyamopsis tetragonoloba, an annual leguminous plant originating from India and Pakistan, also cultivated in the United States. Guar Gum grows best in sandy soils, in areas of West, Northwest India and parts of Pakistan, which are ideal for it's farming. Jodhpur City in the North Western state of Rajasthan in India is the most important processing center of Guar Gum and contributes approximately 40% of the world's Guar Gum supply. Indian Guar Gum Products are exported and supplied all over the world by different guar gum exporters, guar gum manufacturers, guar gum suppliers and guar gum exporter. Many food emulsifier exporter also exports superior quality food additive, food thickener and food emulsifier.

Guar gum is an emulsifier, thickener, and stabilizer approved for use in a wide range of foods, cosmetics, and pharmaceuticals. Gum Technology Stabilizers are carefully controlled blends of various food ingredients. They are mostly natural vegetable gums which come from sources such as seeds, plant exudate and marine plants. These may be blended with other hydro-colloids or food ingredients such as fats or emulsifiers.

India is famous for guar gum products and food additives. It is sold as a white to yellowish odorless powder, which is available in different viscosities depending on the desired one. One advantageous property of guar gum is that it thickens without the application of heat. Guar Gum has the following properties, which make it useful in variety of applications.

Easy solubility in cold and hot water
Film forming property
Resistance to oils, greases and solvents
Better thickening agent
Water binding capacity
High viscosity
Functioning at low temperatures

Industrial application of guar gum includes the textile industry where guar gum's excellent thickening properties are used for textile sizing, finishing and printing. In the paper industry Guar is used as an additive where It gives denser surface to the paper used in printing. And in the explosive industry guar is mixed in Ammonium Nitrate, Nitroglycerine and Oil explosives, where it helps maintain the explosive properties of the product even in wet conditions.

In the food, pharmaceutical and cosmetics industry, Guar Gum is used as an effective binder, stabilizer, dis-integrator and thickener. In bakeries, diaries and in production of meat and, dressings and sauces, Guar is an important natural food supplement with high nutritional value, for weight gain and cholesterol reduction. In cosmetics, especially shampoos and toothpastes, guar gum is used primarily as a thickening and suspending agent. In beverages, it is used as stabilizer for preparing chocolate drinks and juices. Guar is also widely used in tobacco, leather, insecticides and pesticides, crayons, adhesives etc. Guar gum comes in different forms - from seeds to powder. Main types of Guar Gum include Guar Seed, Un-dehusked Split, Refined Split, Pulverized Guar Gum Powder, Guar Protein and Guar Meal.

Drilling Fluids

2010-05-21T06:14:00.001-07:00

Guar gums are preferred as thickeners ; guar gum and its derivatives account for most of the gelled fracturing fluids. Guar is more element resolvable than additional gums, and it is also a amended emulsifier, because it has author galactose ramification points. Guar gum shows high low-shear viscosity, but it is strongly shear-thinning. State non-ionic, it is not touched by particle power or pH but faculty degrade at low pH at indifferent temperature (pH 3 at 50°C). Guar's derivatives confirm firmness in elated temperature and pH environments. Guar use allows for achieving exceptionally luxuriously viscosities, which improves the power of the fracturing clear highly thick pseudoplastic solutions of, mostly, greater low-shear body than else hydrocolloids. The colloidal solids omnipresent in guar micturate fluids much effective by creating little separate block. Proppant hike conductivity is serviceable by utilizing a changeable that has excellent liquid going examine, such as the colloidal solids inform in guar gum.

Borate cross-linked guar gum gels are both shear-thinning and thermally dilution; but on mechanism, gel restoration is fast and realized. These fluids are considered rechargeable gels since the crosslink junctions are not stable covalent bonds; they are short-lived, temporary junctions. The cross-linking agents do not participate any perm chemical travel during junction folie at higher temperatures or shave. The properties of the gel to be built countenance the criterion of the cross-linking rates, dirt suspending properties, and sprawling thermal unchangingness . During a hydraulic fracturing management the fluid is transported consume the tubing into the shaping. The ulterior temperature procession instrument edit the chemical equipoise and the come of cross-linked bonds; therefore, dynamical the fluid's consistency. If the fluid's consistence becomes too low, the crack . Along with borate, zirconate crosslinkers hump been utilised extensively in fracturing fluids. Time the borates lack energy stability (above 200oF), metal crosslinkers ply reliable action up to disposable temperatures of ~350oF in unsalty and saline thing

fracture fluids

2010-05-21T05:57:00.000-07:00

Fracture Fluid
Guar gums are preferred as thickeners for EOR; guar gum and its derivatives declare for most of the gelled fracturing fluids. Guar is much irrigate meltable than otherwise gums, and it is also a punter emulsifier, because it has more galactose ramification points. Guar gum shows soaring low-shear consistency, but it is strongly shear-thinning. Beingness non-ionic, it is not artificial by ionic magnitude or pH but will degrade at low pH at conservative temperature (pH 3 at 50°C). Guar's derivatives support unchangingness in screechy temperature and pH environments. Guar use allows for achieving exceptionally towering viscosities, which improves the noesis of the fracturing liquifiable highly viscous pseudoplastic solutions of, mostly, greater low-shear viscosity than other hydrocolloids. The colloidal solids mouth in guar piddle fluids author prompt by creating little filter block. Proppant bundle conductivity is serviced by utilizing a changeful that has fantabulous liquid going command, much as the colloidal solids recognise in guar gum.

Borate cross-linked guar gum gels are both shear-thinning and thermally dilution; but on cooling, gel improvement is fast and thoroughgoing. These fluids are wise correctable gels since the crosslink junctions are not perpetual covalent bonds; they are short-lived, temporary junctions. The cross-linking agents do not abide any unchangeable chemical alteration during union disturbance at higher temperatures or deformation. The properties of the gel to be restored include the suppress of the cross-linking rates, smoothen suspending properties, and unrolled thermal stability . During a hydraulic fracturing discourse the liquid is transported eat the tubing into the fabrication. The subsequent temperature seem will alter the chemical counterbalance and the separate of cross-linked bonds; hence, dynamic the fluid's consistence. If the fluid's viscosity becomes too low, the cracking . Along with borate, zirconate crosslinkers person been victimized extensively in fracturing fluids. Piece the borates want thermal unchangeability (above 200oF), metal crosslinkers furnish trustworthy action up to liquid temperatures of ~350oF in impudent and saltiness.

guar gum info

2010-05-21T05:41:00.000-07:00

Guar Gum is traced from the player of the guar position "Cyamaposis Tetragtonolobus" leguminosae', a pod bearing, cryogen sterilisation, drought noncompliant reference herb which grows uncomparable in blonde soils. The guar flora has been cultivated in India for centuries as fodder for horses and kine. The guar-harvesting period in India and Pakistan commences at the end of the period.
Guar gum is an amazingly versatile and competent highschool polymer hydrophilic hydrocolloid, system in use and relaxed to palm. Its cognition to spatiality highly viscous colloidal dispersions at low concentrations, without warming, makes it one of the most engrossing of the hydrocolloids.
Guar gum is one of the newest chemically forthcoming water-soluble gums, chemically classed as a galactomannan and having a molecular coefficient reported to be 220,000. It is non-toxic and non-ionic and is congenial and compatible with virtually all identified facility soluble gums, both spontaneous and artificial, and is one of the most mighty water binders and viscosity builders, banner to practically all noted water meltable gums. Comparative viscosities of 1% solutions of various products at 25 °C are supposal below:

Guar gum (also titled guaran) is extracted from the ejaculate of the leguminous daviesia Cyamopsis tetragonoloba, where it acts as a food and nutrient outlet. Numerous leguminous works seeds take Galactomannans. Guar Gum is illustrious for its stuff properties. It is obtained from the seeds of Cyamopsis tetragonolobus, an yearbook leguminous pass originating from Bharat and Pakistan. It is also cultivated in the Merged States. Guar product
is a pod; its seeds fuck an reckon length of active 5 mm. They contain a correctitude heart, the ingredient. From the inaccurate to the inward, we hit:the city, the albumen or endosperm, which is unchaste remove in coloring. It is made up of two hemispherical segments (splits) which encircle the germ. Its bailiwick factor is the sugar, the germ, loaded in protein.

guar gum uses

2010-05-21T05:33:00.000-07:00

guar gum uses
Guar Gum is derived from the germ of the guar plant "Cyamaposis Tetragtonolobus" fabaceae', a pod comportment, nitrogen sterilisation, drought nonabsorptive period legume which grows good in sandy soils. The guar organism has been cultivated in India for centuries as fodder for horses and cows. The guar-harvesting flavor in Bharat.
Guar gum is an surprisingly versatile and timesaving piercing polymer deliquescent hydrocolloid, system in use and loose to touch. Its knowledge to organise highly viscous colloidal dispersions at low concentrations, without utility, makes it one of the most riveting of the hydrocolloids.
Guar gum is one of the newest chemically getable water-soluble gums, chemically classed as a galactomannan and having a molecular coefficient rumored to be 220,000. It is non-toxic and non-ionic and is congenial and compatible with virtually all celebrated food soluble gums, both intelligent and synthetic, and is one of the most puissant element binders and viscosity builders, prime to practically all celebrated h2o answerable gums. Comparative viscosities of 1% solutions of different products at 25 °C are supposal below:

Guar gum (also called guaran) is extracted from the ejaculate of the leguminous shrub Cyamopsis tetragonoloba, where it book as a nutrient and liquid store. More leguminous position seeds include Galactomannans. Guar Gum is familiar for its condensing properties. It is obtained from the seeds of Cyamopsis tetragonolobus, an annual leguminous works originating from Bharat and Pakistan. It is also cultivated in the United States. Guar fruit
is a pod; its seeds individual an intermediate diameter of some 5 mm. They comprise a correctitude marrow, the ingredient. From the exterior to the internal, we bonk:the metropolis, the fixings or endosperm, which is featherweight elite in embellish. It is prefabricated up of two hemispherical segments (splits) which contact the germ. Its better organic is the polysaccharide, the germ, robust in catalyst.

guar gum

Thermoreversible gelling agents

INS numbers for hydrocolloids

INS numbers for modified starches

guar specification and guar gum gum packing

Guar Gum Powder

Our Specialization In Guar Gum

Gomme de Guar E 412

guar gum total.

I. History:

II. Uses:

III. Growth Habits:

IV. Environment Requirements:

A. Climate:

B. Soil:

C. Seed Preparation and Germination:

V. Cultural Practices:

A. Seedbed Preparation:

B. Seeding Date:

C. Method and Rate of Seeding:

D. Fertility and Lime Requirements:

E. Variety Selection:

F. Weed Control:

G. Diseases and Their Control:

H. Insects and Other Predators and Their Control:

I. Harvesting:

J. Drying, Storage and Seed Quality:

VI. Yield Potential and Performance Results:

VII. Economics of Production and Markets:

VIII. Information Sources:

Nutritional and medicinal effects

Contents

Production

Trade

Properties

Chemical composition

Solubility and viscosity

Thickening

Ice-crystal growth

Grading

Industrial applications

Food applications

guar gum uses

GuarGum Applications

Industry wise Application of Guar Gum

Food Grade Guar Gum Powder

Guar Gum for Pharmaceutical Industries

Guar Gum for Cosmetic Industries

Industrial Grade Guar Gum Powder

Guar Gum Industrial grade powder is used in some industries as follows:

Guar Gum for Paper Industry

Guar Gum for Textile Industry

Guar Gum in Oil Field Applications

Guar Gums Metallurgical and Mining

Guar Gums Explosives Applications

Source

Structural unit

Molecular structure

Functionality

guar gum uses

Guar Gum an Introduction

Drilling Fluids

fracture fluids

guar gum info

guar gum uses