Ferric Phosphate Ceramic Grade Ferric Phosphate (CAS No. 10045-86-0)

Ferric Phosphate Ceramic Grade Ferric Phosphate (CAS No. 10045-86-0) available at our factory. Highest quality and reliable supply.
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PRODUCTS DETAILS

Basic Info.

Model NO.
ceramic grade
Nutrient Composition
Mineral
Resource
Chemosynthesis
The content of active substances
>90%
Transport Package
in 25kg Net Bag/Drum
Specification
20KGS/CARTON 25KGS/BAG
Trademark
ALLRIGHT G. C.
Origin
Shandong
Production Capacity
200 Mt/Month

Product Description

Ferric Phosphate Ceramic Grade Ferric Phosphate (CAS No. 10045-86-0) Ferric Phosphate Ceramic Grade Ferric Phosphate (CAS No. 10045-86-0)Chemical Name: Ferric phosphate
Other Names:
Iron (III) Phosphate
Ferric Orthophosphate
Iron (III) Orthophosphate
Ferric Phosphate Hydrate
Iron Orthophosphate
Iron Phosphate
Iron Phosphate Hydrate
FePO4
Ferric Phosphate Ceramic Grade Ferric Phosphate (CAS No. 10045-86-0)
Occurs in nature as the minerals:
beraunite
cacoxenite
dufrenite konindia
phosphosiderate
strengite
Ferric pyrophosphate is an iron replacement product. You normally get iron from the foods you eat. Iron helps your body produce red blood cells that carry oxygen through your blood to tissues and organs.
Ferric pyrophosphate is used to treat iron deficiency in people with chronic kidney disease who are on dialysis.

Other Codes:
EPA Fact Sheet - 034903
EPA - #667702-3
EINECS - 233-149-7
FDA Registration as GRAS in 21 CFR § 184.1301
Former CAS Number(s): 150070-02-3, 58782-48-2
OPP Chemical Code: 34903
STATE OF CALIFORNIA, State Regulatory
Authority Registration #67702-3-AA

Product Chemistry
Physical State crystals or powder
Color white, grayish-white, or light pink
Odor odorless
Melting Point not known - loses water of hydration at 140°C
Boiling Point not known - loses water of hydration at 140°C
Specific Gravity 2.87
Water Solubility practically insoluble in water
Solubility, other slowly soluble in nitric acid (HNO3); readily
soluble in hydrochloric acid (HCl)
Ferric Phosphate Ceramic Grade Ferric Phosphate (CAS No. 10045-86-0) How does iron phosphate work?
Iron phosphate is a stomach poison in slugs and snails. It damages their digestive tissue. With enough exposure, they stop eating altogether and slowly die. The exact mode of action is not clearly understood.

How might I be exposed to iron phosphate?
Iron and phosphate ions are found in many foods naturally. Iron phosphate is used to fortify foods such as bread. Other foods, such as pasta, milk, and beverages, are also fortified with forms of iron. Iron phosphate is Generally Recognized As Safe (GRAS) by the Food & Drug Administration (FDA). However, dogs have become sick after eating large amounts of iron. This happens when vitamins, fertilizers, or slug baits are accessible.
You can be exposed if you are applying slug baits with iron phosphate and you get it on your skin, breathe it in, or accidentally eat or drink a product. You can limit your exposure and reduce risk by following all label instructions carefully.

What are some signs and symptoms from a brief exposure to iron phosphate?
Iron phosphate is considered very low in toxicity when eaten. However, eating too much iron can cause stomach upset in humans and in animals. Diarrhea, vomiting, and depression have been reported. In severe cases of iron poisoning, symptoms might resolve temporarily and return 12 - 96 hours after the first signs appeared. At this stage, problems with blood pressure and heart rate can lead to shock and sometimes death. Weakness, muscle tremors and liver failure have also been reported.

Iron phosphate may cause slight irritation to the eyes and little or no irritation to the skin. No information could be found describing its toxicity when inhaled. However, iron phosphate is not likely to be inhaled. This is because it is made in a granular form and does not release vapors into the air.

What happens to iron phosphate when it enters the body?
In people and pets, iron and phosphate come apart within the body. A portion of the iron can be absorbed into the bloodstream. The amount absorbed is based on the level of iron already in the blood. Proteins transport the iron through the body.

Iron serves essential functions in blood cells, energy production, and certain enzymes. Iron is found in every cell of the body. When there is too much iron for the proteins to carry, iron can break up cell membranes as it travels unbound in the body. This can allow the free iron particles to penetrate the walls of the bloodstream, liver, heart, and brain. Even when exposures are high, very little of the iron absorbed into the body is excreted.

Is iron phosphate likely to contribute to the development of cancer?
Iron and phosphate have been part of the normal human diet throughout history. When the U.S. Environmental Protection Agency and FDA evaluated iron phosphate for safety, cancer studies were not required. In cell studies, iron phosphate did not cause gene mutations.

Has anyone studied non-cancer effects from long-term exposure to iron phosphate?
No studies on the effects of long term exposure to iron phosphate could be located. However, researchers have evaluated iron supplements by giving human volunteers daily doses of iron sulfate for weeks. They took at least 50 mg of iron daily. Many of them (25-50%) had symptoms of stomach upset, including things like abdominal pain, nausea, vomiting, heartburn, diarrhea, and constipation. Headaches, heartburn and skin rashes were also reported. The average human diet contains 10-15 mg of iron per day.

Human studies including pregnant women, infants and children showed that iron does not cause problems with birth, growth or development. When chickens and pregnant rats and mice were fed iron sulfate, there were no effects for the mothers or offspring.

Are children more sensitive to iron phosphate than adults?
Children may be especially sensitive to pesticides compared to adults. However, there are currently no data to conclude that children have increased sensitivity specifically to iron phosphate. Recommendations for iron intake are lower for infants and children than they are for adults.

What happens to iron phosphate in the environment?
Iron and phosphate occur naturally in soil, and they do not become airborne. Slug and snail bait applications can add to the iron and phosphate in soils. However, they are often applied to soil in larger amounts as fertilizer. Iron and phosphate are also essential to animal and plant nutrition. Once applied, iron becomes part of compounds that are naturally found in soil. They stick to soil particles, and act as a bridge to bind particles together.
Bacteria can turn iron into forms that dissolve readily in water, but they are quickly converted back. Phosphate does not dissolve well in water, either. Iron and phosphate don't move with water but tend to stay put. They are considered persistent. However, due to their low toxicity and mobility, groundwater concerns have not been identified.

Can iron phosphate affect birds, fish, or other wildlife?
Iron phosphate is practically non-toxic to birds, based on testing with quail. Beetles and earthworms were not affected in studies using twice the amount of iron phosphate allowed. Iron phosphate is practically non-toxic to fish, water fleas, and algae. Exposure to bees is unlikely because it is applied to soil as granules.
Ferric Phosphate Ceramic Grade Ferric Phosphate (CAS No. 10045-86-0) Ceramics, batteries, agriculture
Agriculture Grade, Electron Grade, Food Grade, Industrial Grade, Medicine Grade, Reagent Grade

Ferric Phosphate Ceramic Grade Ferric Phosphate (CAS No. 10045-86-0)

FERRIC PHOSPHATE

tech or Ceramic grade

CONTENT

Specifications (dihydrate)

SPEC.

Low Temperature Melting Point ≤1100

High Temperature Melting Point ≥1200

FERRIC PHOSPHATE (as Fe)

26.0%-32%  26.8%min

26.0%-32%  26.8%min

Heavy metals (as Pb)

0.001%max

0.001%max

Arsenic (as As)

0.0008%max

0.0008%max

Fluoride (as F)

0.005%max

0.005%max

mercury (as Hg)

0.0002%max

0.0002%max

Loss on Drying

21-26%Max

21-26%Max

Al2O3

0.53% Max

0.53% Max

SiO2

0.02% Max

0.02% Max

Fe2O3

38.83%

38.83%

CaO

0.05% Max

0.05% Max

MgO

0.10% Max

0.10% Max

K2O

0.03% Max

0.03% Max

Na2O

0.15% Max

0.15% Max

Tio2

0.02% Max

0.02% Max

P2O5

38.66%

38.66%

Ferric Phosphate Ceramic Grade Ferric Phosphate (CAS No. 10045-86-0) Ferric Phosphate Ceramic Grade Ferric Phosphate (CAS No. 10045-86-0)

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