Specification For food grade xanthan gum Test items specs Appearance cream-white Particle size (mesh) 200 Loss on drying 13% Ph (1% kcl) 6.0-8.0 Viscosity (1% kcl, cps) 1200 Shearing ratio 6.0 Ashes (%) 13 Pyruvic acid (%) 1.5 V1/v2 1.02-1.45 Assay 91%-108% Total nitrogen 1.5% Total heavy metals 10ppm As 2ppm Pb 2ppm Total plate count 2000cfu/g Moulds/yeasts 100cfu/g Salmonella negative E. Coli negative 25kgs in one bag
Sucralose(CAS NO.:56038-13-2) DESCRIPTION White power or crystalline powder. with strong sweet taste and its dilute solution is approximately 600-650 times than sucrose,also has no unpleasant aftertaste. Chemical Nameú¦4ú¼1í»ú¼6í»í¬trichloro---4ú¼1í»ú¼6í»í¬trideoxy--Pentagalactosucralose Molecular name: C12H19CL3O8. Molecular Weight:397.64 SPECIFICATION:(FCCV USP30): Appearance: white crystalline powder Assay: 98.0%~102.0% Water:
The use of unique scientific formulation, processing technology, derived enrichment, nutrition, seasonings in one, are without any pigment, chemical flavor seasoning new advanced composite products to maintain the old hen the juice, flavor, essence, color, are living at home, hotels, cooking, food ideal for seasoning.
The use of unique scientific formulation, processing technology, derived enrichment, nutrition, seasonings in one, are without any pigment, chemical flavor seasoning new advanced composite products to maintain the old hen the juice, flavor, essence, color, are living at home, hotels, cooking, food ideal for seasoning.
Synonyms: ªG-carotene Cas no.: 7235-40-7 Einecs no.: 230-636-6 Inci name: carotene Empirical formula: c40h56 Molecular mass: 536.88 g/mol Specifications Appearance: brownish-red to reddish-brown viscous oil Light absorption (in cyclohexane): (1) maximum absorption: at 453¿c457nm (2) relative extinction at 340 nm: max. 0.080 Beta carotene content: min. 30% Heavy metals: max. 10ppm Lead: max. 2ppm Arsenic: max. 3pmm 1kg in aluminum bucket
Synonyms: -carotene Cas no.: 7235-40-7 Einecs no.: 230-636-6 Inci name: carotene Empirical formula: c40h56 Molecular mass: 536.88 g/mol Specifications Appearance: red-brown crystalloid powder Light absorption (in cyclohexane): (1) maximum absorption: at 453¿c457nm (2) relative extinction at 340 nm: max. 0.080 Beta carotene content: 96-101% Heavy metals: max. 10ppm Lead: max. 2ppm Arsenic: max. 1ppm 1kg in one aluminium foil bag
Synonyms: carotene Cas no.: 7235407 Einecs no.: 2306366 Inci name: carotene Empirical formula: c40h56 Molecular mass: 536.88 g/mol Specifications Appearance: brownishred powder Light absorption (in cyclohexane): (1) maximum absorption: at 453¿c457nm (2) relative extinction at 340 nm: max. 0.080 Beta carotene content: min. 10% Heavy metals: max. 10ppm Lead: max. 2ppm Arsenic: max. 3pmm 5kgs in one aluminium foil bag
It made from different vegetables and serve with peanut sauce and warm plain rice. Sambal pecel (peanut condiment) represents of food flavour which made from peanut, chili, palm sugar, lime leaf ( or its fruit), sour fruit, and salt. Sambal pecel is used for food flavour which served with vegetables and some traditional trifle like tempeh, tofu, peyek, and other trifle. Varian : non chilli, medium, hot Standard lot size , weight , dimensions
It is mainly used in food and drink industrial, and it is also widely used in the medicine, chemical, cleanse and some other industrials. In the food industrial area, it is mainly used as sour agent and flavoring agent. 25kg/bag or as per your requeste
Food additive.
Acetone Insoluble: Min 60% Hexane Insoluble: Max 0.3% Moisture: Max 1.0% Peroxide: Max 5.0% Acid Value: Max 30mg or units Viscosity: Max 150 poise Color: Light/ Brown. Packing: 200/240kgs In Drums, IBC and ISO Tanks as per buyer requirement.
Molecular-Formula: C4H10O4 Molecular Weight: 122.12 CAS No.: [149-32-6] Erythritol is a good-tasting bulk sweetener which is suitable for a variety of reduced- calorie and sugar-free foods. It has been part of the human diet for thousands of years due to its presence in fruits and other foods. Erythritol has a high digestive tolerance, is safe For people with diabetes, and does not promote tooth decay. Erythritol is a white crystalline powder that is odorless, with a clean sweet taste that is similar to sucrose. It is approximately 70% as sweet as sucrose and flows easily due to its non-hygroscopic character. Like other polyols, erythritol does not promote tooth decay and is safe for people with diabetes. However, erythritolí»s caloric value of 0.2 calories per gram and high digestive tolerance distinguishes it from some other polyols. It has approximately 7 to 13% the calories of other polyols and 5% the calories of sucrose. Because erythritol is rapidly absorbed in the small intestine and rapidly eliminated by the body within 24 hours, laxative side effects sometimes associated with excessive polyol consumption are unlikely when consuming erythritol containing foods. A GRAS (Generally Recognized As Safe) affirmation petition submitted by a consortium of erythritol manufacturers (Cerestar Holding B.V., Mitsubishi Chemical Corporation and Nikken Chemicals Co.) was accepted for filing by the U.S. Food and Drug Administration on January 15, 1997. This allows manufacturers to produce and sell erythritol containing foods in the United States. Erythritol is regulated as a direct food ingredient in Japan and since 1990 it has been used in many Japanese food categories. Benefits of Erythritol Low in calories: Erythritol has a very low caloric content; its value is 0.2 calories per gram for food labeling purposes in the United States and 0 (zero) calories per gram for food labeling purposes in Japan. This very low calorie value is due to erythritolí»s unique absorption and elimination process which does not require the metabolism of erythritol. Thus, erythritol is uniquely qualified as a very low calorie bulk sweetener for formulating í¦lightí¦ and í¦reduced calorieí¦ products which require a 25% or more calorie reduction from the standard formulation. High digestive tolerance: Erythritol is rapidly absorbed in the small intestine due to its small molecular size and structure. Several clinical studies conducted in Europe and Japan have shown that more than 90% of ingested erythritol is absorbed and excreted unchanged in urine within a 24-hour period. This digestive pathway allows less than 5% of ingested erythritol to reach the large intestine and be fermented into volatile fatty acids or metabolized into carbon dioxide. As a result, foods containing substantial amounts of erythritol are very unlikely to cause gaseous and laxation side effects. A recent clinical study concluded daily consumption of 1 gram per kilogram body weight is well tolerated by adults as compared to sucrose containing foods.
Molecular-Formula: C4H10O4 Molecular Weight: 122.12 CAS No.: [149-32-6] Erythritol is a good-tasting bulk sweetener which is suitable for a variety of reduced- calorie and sugar-free foods. It has been part of the human diet for thousands of years due to its presence in fruits and other foods. Erythritol has a high digestive tolerance, is safe For people with diabetes, and does not promote tooth decay. Erythritol is a white crystalline powder that is odorless, with a clean sweet taste that is similar to sucrose. It is approximately 70% as sweet as sucrose and flows easily due to its non-hygroscopic character. Like other polyols, erythritol does not promote tooth decay and is safe for people with diabetes. However, erythritolí»s caloric value of 0.2 calories per gram and high digestive tolerance distinguishes it from some other polyols. It has approximately 7 to 13% the calories of other polyols and 5% the calories of sucrose. Because erythritol is rapidly absorbed in the small intestine and rapidly eliminated by the body within 24 hours, laxative side effects sometimes associated with excessive polyol consumption are unlikely when consuming erythritol containing foods. A GRAS (Generally Recognized As Safe) affirmation petition submitted by a consortium of erythritol manufacturers (Cerestar Holding B.V., Mitsubishi Chemical Corporation and Nikken Chemicals Co.) was accepted for filing by the U.S. Food and Drug Administration on January 15, 1997. This allows manufacturers to produce and sell erythritol containing foods in the United States. Erythritol is regulated as a direct food ingredient in Japan and since 1990 it has been used in many Japanese food categories. Benefits of Erythritol Low in calories: Erythritol has a very low caloric content; its value is 0.2 calories per gram for food labeling purposes in the United States and 0 (zero) calories per gram for food labeling purposes in Japan. This very low calorie value is due to erythritolí»s unique absorption and elimination process which does not require the metabolism of erythritol. Thus, erythritol is uniquely qualified as a very low calorie bulk sweetener for formulating í¦lightí¦ and í¦reduced calorieí¦ products which require a 25% or more calorie reduction from the standard formulation. High digestive tolerance: Erythritol is rapidly absorbed in the small intestine due to its small molecular size and structure. Several clinical studies conducted in Europe and Japan have shown that more than 90% of ingested erythritol is absorbed and excreted unchanged in urine within a 24-hour period. This digestive pathway allows less than 5% of ingested erythritol to reach the large intestine and be fermented into volatile fatty acids or metabolized into carbon dioxide. As a result, foods containing substantial amounts of erythritol are very unlikely to cause gaseous and laxation side effects. A recent clinical study concluded daily consumption of 1 gram per kilogram body weight is well tolerated by adults as compared to sucrose containing foods. Safe for people with diabetes: Single dose and 14-day clinical studies demonstrate erythritol does not affect blood serum glucose or insulin levels. Clinical studies conducted in people with diabetes conclude that erythritol may be safely used to replace sucrose in foods formulated specifically for people with diabetes. Of course, those with diabetes should consider the impact on their diet of other ingredients used in foods sweetened with erythritol. Does not cause tooth decay: Erythritol like other polyols is resistant to metabolism by oral bacteria which break down sugars and starches to produce acids which may lead to tooth enamel loss and cavities formation. They are, therefore, non-cariogenic. The usefulness of polyols, including erythritol, as alternatives to sugars and as part of a comprehensive program including proper dental hygiene has been recognized by the American Dental Association. The FDA has approved the use of a "does not promote tooth decay" health claim in labeling for sugar-free foods that contain erythritol or other polyols.
Product introduction Chemical name:n-l-a-aspartyl-l-phenylalanine-methyl ester Chemical formula:c14h18n2o5 Chemical molecular structure: Applications Aspartamef+s performance is cleanf=low calorie and pure taste .(200 times sweeter than sucrose)+aspartame is used in the manufacture of many sugar-free, low calorie and dietary products, such as: 1.Beverages: carbonated and still soft drinks, fruit-juices and fruit syrups. 2.Table-top: compressed sweeteners, powdered sweeteners (spoon-for-spoon), sweetener sachets and liquid table-top sweeteners 3.Dry mixes: hot and cold chocolate and beverage mixes and instant desserts 4.Dairy: yoghurt, frozen novelties and desserts. 5.Confectionery: chewing gum, boiled sweets, pastilles, mints, chocolate, gums and jellies. 6.Pharmaceutical: tablets, sugar-free syrups, powdered mixes and effervescent tablets. Product characteristic 1taste same as sugar, cool feeling, without bitterness.
Product Name : Sucralose Chemical Name : 1í»,6í»¿CDichloro-1í», 6í»¿Cdideoxy¿Cª-¿CD-fructofuranosyl¿C4¿Cchloro¿C4¿Cdeoxy¿Cª-¿CD¿Cgalactopyranoside Synonyms : TGS; 4, 1í», 6í» ¿C Trichlorogalactosucrose; Trichlorogalactosucrose CAS No. : [56038-13-2] Molecular Formula : C12H19O8Cl3 Sausage The natural sugar-like sweetness of Sucralose can be used to make rich, tasty sausages, drawing out the meatiness and accentuating herbal and spicy flavors. As Sucralose is a high intensity sweetener, very small levels of addition are necessary to benefit from its advantages. Additionally, both resistant to heat in acidic to neutral conditions and stable throughout prolonged storage, Sucralose will not be broken down or deteriorate in quality from heat sterilization during the production process. the only non-calorie sweetener made from sugar. Now a wide variety of foods and beverages can benefit from its natural sweetness. To meet the various requirements of consumers' individual dietary habits such as reduced calorie intake and health maintenance, the food and beverage industry strongly desires a non-calorie sweetener with superior heat resistance and stability. Sucralose, the only non-calorie sweetener made from sugar, meets these needs. With a sweetness about 600 times the strength of sugar, excellent solubility and superior stability, Sucralose can be used to bring a natural sweetness to a wide variety of processed foods and beverages. Superior sweetness Because it is made from sugar, Sucralose has a rounded sweetness very close to that of sugar, with almost no bitterness or astringency. High intensity Sucralose is about 600 times as sweet as sugar, although its intensity does fluctuate depending on the type of food to which it is applied. Excellent stability Sucralose shows excellent stability in both powder and aqueous form. It is especially stable in aqueous solution at pH 7.0 or under. Its high stability in long shelf life foods has been confirmed. It remains stable under high-temperature processing conditions such as retort sterilization. The excellent stability of Sucralose makes it the sweetener of choice for a wide range of foods and manufacturing processes.
Synonyms: plant starch Molecular formula: (C6H10O5)N CAS No: 9005-80-5 EINECS No: What is Inulin? A fructan and storage carbohydrate, inulin, belongs to a group of naturally-occurring carbohydrates containing non-digestible fructooligosaccharides. Inulin is found naturally in more than 36,000 types of plants worldwide. It is estimated that approximately one-third of the earth's vegetation contain this substance. Because of its presumed health benefits, it is used as a food ingredient
Polydextrose is a multi-purpose additive synthesized from dextrose (glucose), plus about 10 percent sorbitol and 1 percent citric acid. It is commonly used as a replacement for sugar, starch, and fat in commercial cakes, candies, dessert mixes, gelatins, frozen desserts, puddings, and salad dressings. The amount of polydextrose used can vary depending on the type of product, examples include frozen dessert, 13 to 14 percent; puddings, 8 to 9 percent; and cake 15 to 16 percent. How is polydextrose regulated? The fda approved polydextrose in 1981. The fda requires that any serving of food that contains one-half ounce of polydextrose must be labeled with the following: "sensitive individuals may experience a laxative effect from excessive consumption of this product." What are the health effects of polydextrose? There is no evidence that polydextrose is carcinogenic or mutagenic, however, as with many fat replacement products, it may interfere with the absorption of certain essential nutrients and produce flatulence and diarrhea when consumed in high quantities. Chemistry: Polydextrose is a 1kcal/g carbohydrate polymer with an average degree of polymerization of 12. Its molecular weight ranges from 162 to approximately 20, 000 with about 90% of the molecules being between 162 and 5, 000 mw. Polydextrose does not analyze as dietary fiber by standard aoac enzyme-gravimetric methods (such as 985.29 or 943.41) because it is soluble in 80% ethanol. Therefore, polydextrose must be quantified by an alternative method using high-pressure anion exchange chromatography utilizing the electrochemical detection mode. Nutrition information L dietary fibre L low-calorie(1kcal/g)substitute for sugar or fats in various foods
Fructooligosaccharides is made from sugar with biotech fermentation. It enjoys many valuable properties i.E. Small dosage, cost-saving, high sweetness, low calorific value and wide application. Additionally, it is also entitled with some other pharmaceutical values. Please kindly find them as followin fructooligosaccharides is made from sugar with biotech fermentation. It enjoys many valuable properties i.E. Small dosage, cost-saving, high sweetness, low calorific value and wide application. Additionally, it is also entitled with some other pharmaceutical values. Please kindly find them as following: *it is hard to digest with the ferment and hard to absorb. Therefore, with fructooligosaccharides, you will never have to worry about getting fat. *it can successfully increase health bacteria (e.G. Bifidobacteria and lactic acid bacteria) while inhibit the pathogenic ones(e.G. Colon bacilli) *it is fully capable of invigorating the organs by lowing the cholesterol and blood fat. *the possibilities of having decayed teeth are pleasantly ruled out of you with taking it regularly. *it can enhance maní»s absorption of the mineral elements. Whatí»s more, fructooligosaccharides can be an ingredient of drinks, food and functional food. G: *it is hard to digest with the ferment and hard to absorb. Therefore, with fructooligosaccharides, you will never have to worry about getting fat. *it can successfully increase health bacteria (e.G. Bifidobacteria and lactic acid bacteria) while inhibit the pathogenic ones(e.G. Colon bacilli) *it is fully capable of invigorating the organs by lowing the cholesterol and blood fat. *the possibilities of having decayed teeth are pleasantly ruled out of you with taking it regularly. *it can enhance maní»s absorption of the mineral elements. Whatí»s more, fructooligosaccharides can be an ingredient of drinks, food and functional food.
Synonyms: d-glucose, monohydrate; dextrosol; dextrose, monohydrate, powder Chemical formula: c6h12o6.H2o Molecular weight: 198.17 Cas no.: 5996-10-1 Dmh is a white granular monosaccharide. It is obtained by enzymatic hydrolysis of starch to dextrose and subsequent purification and crystallization from solution. It is sweet in taste, free from foreign flavour and finds wide applications due to its inherent quality of being an instant energy source. Dmh does not require conversion before assimilation into the human system and is, therefore, very popular in the pharmaceutical and energy products. What is dmh used for? Dmh is extensively used in many food products both in liquid and in dry forms. It imparts a tender feel to sweets and creates a cool sensation in the mouth. It is widely used for its nutritional value c one gram of dmh supplies approximately 3600 calories of energy. Being a simple sugar, it is readily absorbed by the body and provides instant energy to overcome physical fatigue. Bakery products Besides enhancing flavour and sweetness of cakes, biscuits and other bakery products, dmh contributes to the crust colour and texture. It accelerates the brewing reaction and fermentability and reduces standing time as it dissolves and cools the dough.
The potassium salt of 6-methy-2,2-oxathiazine-4(3H)-one-2,2-dioxide. Shape:White, virtually odourless, crystalline powder Molecular formula :C4H4NO4KS Molecular weight :201.24 CAS NO:55589-62-3 Code:GB19.011 , INS NO.950 ADVANTAGES: Good taste:similar to sucrose in terms of taste High sweetness:about 200 times sweeter than sucrose Easily dissolved:dissolves quickly and easily in water under room temperature. Non-calories:no metabolism and no calorific value in the body, suitable for diabetics. Synergistic effect:Acesuliame-K has a distinguished synergistic effect when used in combination with other sweeteners, which can make a 20-40% reduction in the quantity of product required. Long-lasting stability: no loss quality for 10 years during storage, not hygroscopic, high physical and chemical stablity even at 225íµ or the range of PH2-10, no interaction with other involved ingredients and additives. It will not cause tooth decay, with the good product image of low calorie and protecting tooth. Lower the production costs;Ensure or extend the product shelf-life. APPLICATIONS: Acesulfame-K is widely used in various kind of food. Acesulfame-K is the most suitable sweetener for soft veverage because of it's high stability and good taste, it can be used in such foodstuffs as sweetener: soft drink, chewing gum, coffee(instant), tea(instand), dairy product analogs, gelatins, pudding desserts, tabletop sweetener and baked food. Acesulfame-K can be also used in medicine and cosmetics, for example, syrup, sugarcoating pius, toothpaster, lipstick, mouthwasher and similar products.