Metal Databank, Metal Data

Web This Site

	Roll Design
	Auto Form
	Free Form
	Mill Load
	Temperature
	Flow stress
	Hi-T Data
	General Data
	Business
	Software
	Books
	Articles
	Domains
	Consulting
	Dictionary
	Unit
	Patents
	Directory

Showcase

	Listing Bridge
	Tech Products
	R&D Profile

Resources

-	Metallurgy & Materials
-	Metal Working
-	IT & Automation
-	Industry Review
-	Metal Patents
-	Research
-	Metal Directory
-	R&D Roadmaps
-	Steel Mills

Metal Data Bank

This engineering Data Bank provides data and models, that are critical to engineering calculations and simulations. Metal industry related business data will also be provided. Currently the engineering data include primarily flow stress models, high temperature property data and the general property data in the room temperature.

High Temperature Properties

This section provide major metal properties at high temperature, which are critical for accurate simulation of metal hot forming processes, as well as for engineering application at high temperature. Those properties are such as:

Mean Coefficients of Thermal Expansion
Differential Coefficients of Thermal Expansion
Modulus of Elasticity
Mean Specific Heat
True Specific Heat
Electrical Resistivity
Thermal conductivity
Temperature conductivity

Room Temperature Properties

We also provide metal property data at room temperature, so we have collected around 2000 counts of those property data for you.

Flow Stress

Flow stress is a primary metal property critical to determine load and power requirement during metal forming processes (rolling, forging, drawing, and so on).

Flow stress models provided are as follows:

Material Process Model

Steel and Ferrous Alloys Hot Forming F2 F2F3 A B C

Cold Forming F2 F2F3a - - -

Nonferrous Materials Hot Forming F2 - A B C

Cold Forming F2 F2F3a - - -

We have following model types currently:

Model F2: An accurate strain-stress equation for each given temperature and strain rate.
Model F2F3: An accurate equation for each temperature, which describes influences of strain and strain rate.
Model F2F3a: A simple equation for each temperature, which describes influences of strain and strain rate.
Model A: Describing influences of material, temperature, strain and strain rate in a fingle formula.
Model B: Modification to the Model A with more accurate strain factors.
Model C: Modification to the Model B with more accurate strain rate factors.

Business

Our business data include, but are not limited to, information on price, production, consumption, import, export, etc.

Recent Update

- Metal Pass papers published recently
- Metal Pass dozens of No. 1 Google ranks
- Metal Pass consulting - 108 mill projects
- Three-stage biz strategy - as in our logo
- Metal Directory: 1300 steel mills added
- More ...

Roll Pass

Design: AutoForm RD-OV DI-SQ BI-BX-SQ-OV-RD BI-BX-OV-RD	Mill Load RD-OV OV-RD RD-OV-RD SQ-DI DI-SQ SQ-DI-SQ SQ-OV BX-BX General
Design: FreeForm RD-OV DI-SQ

Flow Stress Models

Fe-alloy	Hot	F2	F2F3	A	B	C
Fe-alloy	Cold	F2	F2F3a	-	-	-
Non-Fe alloy	Hot	F2	-	A	B	C
Non-Fe alloy	Cold	F2	F2F3a	-	-	-

Metal Domains

Series

- Steel Mill Roll pass technical series
- Mill automation & computer application
- FEM for steel rolling process modeling