The primary use of Ammonium Sulphate is as a fertilizer for alkaline soils. In the soil the ammonium ion is released and forms a small amount of acid, lowering the pH balance of the soil, while contributing essential nitrogen for plant growth. The main disadvantage to the use of Ammonium Sulphate is its low nitrogen content relative to Ammonium Nitrate, which elevates transportation costs.
It is also used as an agricultural spray adjuvant for water soluble insecticides, herbicides, and fungicides. There it functions to bind iron and calcium cations that are present in both well water and plant cells. It is particularly effective as an adjuvant for 2,4-D (amine), glyphosate and glufosinate herbicides.
We offer Ammonium Nitrate in Granular and Crystalline forms.
Ammonium Sulphate Physical State ; Powder Color : White crystalline powder Cas No. 7783-20-2 Arsenic (As) ; NMT 0.00002% Calcium (Ca) : NMT 0.001% Magnesium (Mg) : NMT 0.0005% Non-volatile substances : NMT 0.01% Active Ingredient ; (NH4)2SO4% Assay : Min 99.5% PH Value ; Min. 4.5 Chloride : NMT 0.0003% Nitrates : PNMT 0.001% Iron ; NMT 0.0002% Heavy Metals (as Pb) ; NMT 0.0002% Phosphate (PO4) ; NMT 0.0005%
The primary use of Ammonium Sulphate is as a fertilizer for alkaline soils. In the soil the ammonium ion is released and forms a small amount of acid, lowering the pH balance of the soil, while contributing essential nitrogen for plant growth. The main disadvantage to the use of Ammonium Sulphate is its low nitrogen content relative to Ammonium Nitrate, which elevates transportation costs. It is also used as an agricultural spray adjuvant for water soluble insecticides, herbicides, and fungicides.
We offer Ammonium Nitrate in Granular and Crystalline forms.
Ammonium Sulphate Physical State ; Powder Color : White crystalline powder Cas No. 7783-20-2 Arsenic (As) ; NMT 0.00002% Calcium (Ca) : NMT 0.001% Magnesium (Mg) : NMT 0.0005% Non-volatile substances : NMT 0.01% Active Ingredient ; (NH4)2SO4% Assay : Min 99.5% PH Value ; Min. 4.5 Chloride : NMT 0.0003% Nitrates : PNMT 0.001% Iron ; NMT 0.0002% Heavy Metals (as Pb) ; NMT 0.0002% Phosphate (PO4) ; NMT 0.0005%
The primary use of Ammonium Sulphate is as a fertilizer for alkaline soils. In the soil the ammonium ion is released and forms a small amount of acid, lowering the pH balance of the soil, while contributing essential nitrogen for plant growth. The main disadvantage to the use of Ammonium Sulphate is its low nitrogen content relative to Ammonium Nitrate, which elevates transportation costs. It is also used as an agricultural spray adjuvant for water soluble insecticides, herbicides, and fungicides.
It is a broad-spectrum plant growth regulator. It can promote cell division and expansion, induce the formation of adventitious roots, increase fruit setting, prevent fruit drop, and change the ratio of female to male flowers, etc. Naphthylacetic acid can enter the plant body through the tender epidermis of leaves and branches and seeds, and be transported to the action site along with the nutrient flow. It is usually used for wheat, rice, cotton, tea, mulberry, tomato, apple, melon, potato, forest tree, etc., and is a good plant growth stimulant. When used to prevent fruit drop, the concentration should not be too high; otherwise, it may have the opposite effect, as high concentrations of naphthalene acetic acid can promote the production of ethylene in plants. When used for root promotion, it is advisable to mix it with indoleacetic acid or other agents that have root-promoting effects. Although the root-promoting effect of crops is good when naphthalene acetic acid is used alone, the growth of seedlings is not ideal. When spraying fruits and melons, it is advisable to evenly wet the leaf surface. For field crops, the general spraying amount of the liquid is about 7.5kg per 100 square meters, and for fruit trees, it is 11.3 to 19kg per 100 square meters. Treatment concentration: For fruits and melons, spray 10 to 30mg/L; for wheat, soak the seeds at 20mg/L for 6 to 12 hours; for cotton, spray 2 to 3 times during the full flowering period at 10 to 20mg/L. This product can be mixed with common insecticides, fungicides and fertilizers. The effect is better on sunny days without rain.
Broad-spectrum plant growth regulator. It can promote cell division and expansion, induce the formation of adventitious roots, increase fruit setting, prevent fruit drop, and change the ratio of female to male flowers, etc. Naphthylacetic acid can enter the plant body through the tender epidermis of leaves and branches and seeds, and be transported to the action site along with the nutrient flow. It is usually used for wheat, rice, cotton, tea, mulberry, tomato, apple, melon, potato, forest tree, etc., and is a good plant growth stimulant. When used to prevent fruit drop, the concentration should not be too high; otherwise, it may have the opposite effect, as high concentrations of naphthalene acetic acid can promote the production of ethylene in plants. When used for root promotion, it is advisable to mix it with indoleacetic acid or other agents with root-promoting effects. Although the root-promoting effect of crops is good when naphthalene acetic acid is used alone, the growth of seedlings is not ideal. When spraying fruits and melons, it is advisable to evenly wet the leaf surface. For field crops, the general spraying amount of the liquid is about 7.5kg per 100 square meters, and for fruit trees, it is 11.3 to 19kg per 100 square meters. Treatment concentration: For fruits and melons, spray 10 to 30mg/L; for wheat, soak the seeds at 20mg/L for 6 to 12 hours; for cotton, spray 2 to 3 times during the full flowering period at 10 to 20mg/L. This product can be mixed with common insecticides, fungicides and fertilizers. The effect is better on sunny days without rain.
Hydroxylamine Sulfate is used in organic synthesis to convert ketones and aldehydes to oximes and acid chlorides to hydroxamic acid. It is an effective reducing agent and used as a catalyst, copolymerization inhibitor (in polymerization processes), and swelling agents. Hydroxylamine sulfate is used in the production of anti-skinning agents, , rubber, textiles, plastics and detergents. It is a radical scavenger that terminates radical polymerization reactions and serves as an antioxidant in natural rubber. Hydroxylamine Sulfate is a starting material for some insecticides, herbicides and growth regulators. It is used in photography as a stabilizer for color developers and as an additive in photographic emulsions in color film.
Specifications
Appearance: White or colorless crystal
Assay: 99.0% Min
Loss on drying: 0.01% Max
Chloride (mg/kg): 0.0005% Max
Iron (mg/kg): 0.0002% Max
Heavy metal: 0.0003% Max
Packing
55.12 LB bag, 40 bags per pallet
DOT Transportation
UN No.: 2865
Proper Shipping Name: Hydroxylamine Sulfate
Hazard Class: 8
Packing Group: III
Uses Benzaldehyde is an important raw material for the pharmaceutical, dye, fragrance and resin industries. It has a wide range of uses: it can be used as a solvent, plasticizer and low-temperature lubricant, etc., and plays an important role in the pharmaceutical, dye, fragrance and resin industries. 1. Application in the fragrance industry: It is mainly used to prepare edible flavors, and a small amount is used in daily chemical flavors and tobacco flavors. It can be used as a special top fragrance and is used in trace amounts in the formula of floral fragrances such as lilac, white orchid and jasmine. 2. Application in the food industry: It is stipulated as a temporarily allowed edible flavor in GB2760--1996. Chemicalbook is mainly used to prepare almond, cherry, peach and other flavors, and can also be used as a flavoring agent for canned cherries in syrup. 3. Agricultural application: It is an intermediate of the herbicide wild swallow quat and the plant growth regulator anti-invertamine, and is used in the agricultural field. 4. Chemical raw materials: It is an important chemical raw material used to prepare lauryl aldehyde, lauric acid, phenylacetaldehyde, benzyl benzoate, etc. 5. Laboratory use: It is used to determine reagents such as ozone, phenol, alkaloids and methylene groups next to carboxyl groups. In short, benzaldehyde has important applications in many fields and is a multifunctional compound.
Benzaldehyde is an organic compound formed when the hydrogen of benzene is replaced by an aldehyde group. Benzaldehyde is the simplest and most commonly used aromatic aldehyde in industry. At room temperature it is a colorless liquid with a distinctive almond odor. Benzaldehyde is the main component of almond oil extract, and can also be extracted from apricot, cherry, bay leaves, peach stones. The compound is also found in nuts and nuts in combination with glycosides (Amygdalin).
use
[Use 1] An important chemical raw material, used to make laural, lauric acid, phenylacetaldehyde and benzyl benzoate, etc., and also used as spices.
[Use 2] Used for the determination of ozone, phenols, alkaloids and methylene reagents located next to carboxyl groups.
[Use 3] Can be used as a special head fragrance, trace used in floral formula, such as lilac, alba, jasmine, violet, acacia, sunflower, sweet bean flower, plum blossom, orange blossom and so on. It can also be used in soap. It can also be used as an edible spice in almond, berry, cream, cherry, coconut, apricot, peach, large walnut, large plum, vanilla bean, spice and other flavors. Wine flavor such as rum, brandy and other types are also used.
[Use 4] Benzaldehyde is an intermediate of herbicide wild Yanquat and plant growth regulator antimyramine.
[Use 5] GB 2760--1996 for the temporary permitted use of edible spices. Mainly used to prepare almond, cherry, peach, kernel and other types of flavor, the amount of up to 40%. As a flavor enhancer for canned cherries in sugar water, add 3ml per kg of sugar water.
[Use 6] Intermediates for medicine, dyes and spices. Used in the production of m-oxybenzaldehyde, lauric acid, lauraldehyde, green, benzyl benzoate, benzylaniline, benzyleneacetone and so on. Used to blend soap essence, food essence, etc.
[Use 7] Organic synthesis, solvent, determination of ozone and methylene next to carbonyl, determination of phenols and alkaloids, preparation of spices
