What is the material 316H plate?
316H stainless steel material can be used in high carbon reduction of 316 stainless steel which can be used in high temperature service. It has higher strength at raised temperature which can utilized at temperatures above 932°F for pressure vessels and structural applications.
what is the properties stainless steel 316h sheet?
What is the difference between 316 and 316H plate?
Stainless Steel 316 is an austenitic chromium-nickel stainless steel which consist molybdenum which provides good corrosion resistance properties. It particularly has high resistance to pitting and crevice corrosion in chloride conditions.
Stainless Steel 316H has high carbon variation which makes it is suitable for application which needs high temperature. Its austenitic structure provides excellent toughness even down to cryogenic temperature.
Generally the difference between them is the application. As stainless steel 316 is basic material which is used in reducing acids. While stainless steel 316H is utilized for high temperature resistance.
What is the density of 316H stainless steel plate?
The density of 316H stainless steel 0.285 lbs/in3 and 8.00 g/cm3.
What is the maximum temperature for 316H sheet?
It can be used in high application at a maximum temperature up to 38°C (120°F)
what is 316h stainless steel coil application
316h stainless steel plate is found in several applications and mainly where high corrosion resistance is required. It is used in chemical and pharmaceutical industries for manufacturing surgical equipment and medical transplants. It can also be used for textile tubing also equipment for petroleum refining industries. It has high formability and hence it can be bent and cut in several way without getting damage. Thus it can even be used for ductworks making sewage water filters.
What is the cast equivalent of 316H plate?
The cast equivalent of stainless steel 316H is CF10M and CF10 can be changed with molybdenum to enhance corrosion and pitting resistance mainly with regards to chloride.