PRODUCT DATA SHEET ACID RESISTANT BRICK
Material : RED SHALE Type Acid Resistant Brick
Size (mm) 230 (LENGTH) X 115 (WIDTH) X 100,76,65,50,40,38,30,25 (THICK)
Specification : ASTM C279, ASTM C410, IS 4860-1982
DESCRIPTION :
We offer premium quality acid resistant bricks Red â?? Shale , tiles and special shapes. We also offer customized sizes as per clients' requirements. Our acid bricks comply with ASTM C279 Type-III, ASTM C410 Type H, L, and Indian Standard 4860 - 1982 Class-I for all applications where low absorption and high acid resistance is required.
FEATURES OF ACID RESISTANT BRICK:
Excellent resistant against wide range of chemicals except hydrofluoric acid, high abrasion resistance, low wearing properties, High Thermal resistant to sudden change in temperature
AREA OF APPLICATION:
Chemical Analysis (Average)
Acid and Alkali Storage Tank Farms
Demineralization plants and Water treatment plants
Chimney inside lining, FGD linings
Towers and Columns
Process Vessels and Tanks
Sewerage Treatment Plants and Lines
Industrial Flooring and Bund Areas
Chimney and Flue Gas Linings
Hoppers and Chutes
SiO266.4
Al2 0324
TiO21.1
Fe2 O31.1
K2 O + Na2 O2.5
NOT RECOMMENDED:
HF acid or other fluoride solutions
Heavy thermal shock
Typical Physical Properties of GANESHAS Acid and Chemical Resistant Brick
Characteristic
RED SHALE ACID RESISTANT BRICK
Test Standard
Bulk Density, gm/cc - 2.3 to 2.35
ASTM C-20 -Water Absorption, % - 0.1 to 1.5 IS 4860-1968
Apparent Porosity, % -0.5 to 1.75 S 4860
Acid Solubility (H2SO4), Loss in Mass,% -0.1 to 1.8 ASTM C-279
Modulus of Rupture, PSI -2133 to 3555 ASTM C-67
Compressive Strength, Kg/cm2 - 700-900 IS 4860-1968
Abrasion Resistant , Volume in mm3 -69 to 85 EN 102
Surface Hardness, MOHS Scale - 7
Condition: new
Capacity: 5~200 m3, 5-200m3
Place of origin: zhejiang, china (mainland)
Brand name: cyy energy
Model number: cyyst
Dimension(l*w*h): customerized
Weight: 2-30t
Certification: asme/tped/dot/gb
Warranty: 5 years
After-sales service provided: engineers available to service machinery overseas working pressure: 1~40bar
Medium: lox/lin/lar/lng/lpg
As we all know, liquid nitrogen is a low-temperature liquid and is volatile. Laboratories usually use the low temperature of liquid nitrogen to preserve experimental samples. The use of liquid nitrogen tanks can effectively reduce the volatilization of liquid nitrogen, but over time during use, the liquid nitrogen gradually decreases.
If cell samples are stored below the level of liquid nitrogen or within the gas phase far away from the tank mouth, it is safe for the samples not to be affected by temperature fluctuations. However, when the liquid nitrogen is less than 1/3 of the total amount, the vaporization time of the liquid nitrogen will increase, and the temperature at the top of the liquid nitrogen tank will rise rapidly as the lid is opened, putting cell activity at risk. During this period, if the liquid nitrogen is not replenished in time, or if the liquid nitrogen is completely evaporated before being replenished, and the temperature of the liquid nitrogen tank rises to normal temperature, the cell samples will not only be damaged, but will most likely die!
In order to avoid such problems, laboratory users often use YDD cell bank liquid nitrogen tanks, also known as stem cell liquid nitrogen tanks, to preserve cells and freeze semen samples.
The YDD stem cell liquid nitrogen tank itself has an intelligent monitoring and management system. Its functions cover liquid level monitoring. In addition to displaying the liquid level in real time, when the liquid level is lower or higher than the set value, an audible and visual warning will be issued, accompanied by a text message. Send and never miss a message, even remotely. If liquid nitrogen is not added in time, this function is triggered and the manager will receive relevant prompts. Samples will not be affected for a short period of time.
In addition, the YDD stem cell liquid nitrogen tank supports two storage modes: gas phase and liquid phase. When using the gas phase mode to store biological samples, the bottom liquid nitrogen volatilizes into nitrogen gas and then supplies the top sample. Liquid nitrogen is not directly related to the sample, and liquid nitrogen cannot soak the sample. , the sample may be damaged.
However, in order to ensure the safety of cell samples, it is recommended that you regularly observe the use of liquid nitrogen and refill the jar with liquid nitrogen in time!
If you have any needs, please contact KGSQ liquid nitrogen tank:
The King of Mangoes: Why Alphonso Mangoes Are Worth the Hype
Alphonso mango, hailed as the king of mangoes, captivates with its unparalleled sweetness and rich, creamy texture. Its vibrant saffron hue conceals a tropical symphony of flavors notes of honey, citrus, and peach dance on the palate. Each juicy bite is a sublime celebration of summer, a sensory indulgence beyond compare.
Alphonso mangoes are preferred worldwide, Berrydale Foods exports Alphonso Mangoes to Japan, USA, Belgium, Singapore, Republic of Korea and Australia.
Alphonso Mango is very sensitive to various environmental factors including handling and storage, this is very difficult to export most of the companies. Berrydale foods have garnered the experience of exporting best quality Alphonso across the world.
Distillation is a process of separating the component substances from a liquid mixture by selective evaporation and condensation. The vacuum distillation has many like lower energy requirement, better quality products and less scaling on the distillation trays due to sludge. The vacuum distillation produces ethanol of international quality standards and there is a lot of demand of ethanol from the vacuum distillation process. Distillation Process in which the components of a substance or liquid mixture are separated by heating it to a certain temperature and condensing the resulting vapors. Some substances have components that vaporize at different temperatures and thus can be separated by condensing their vapors in turn. Distillation is also used as a purification process in which non-volatile components are separated from volatile ones.
