Product Review: MITCalc Thermal Properties of Materials
The MITCalc Thermal Properties of Materials workbook is a valuable tool for engineers and professionals working in the field of mechanical engineering. This comprehensive resource provides information on the effect of temperature on the physical and mechanical properties of various materials used in the industry.
Key Features:
- Calculation of the linear coefficient of thermal expansion and elongation of components for a given heating process.
- Evaluation of the elongation of a group of components made of different materials arranged into a linear chain.
- Determination of the modulus of elasticity at specific temperatures.
- Database with approximately 700 metallic materials commonly used in mechanical engineering.
Standards and Materials:
The workbook includes a list of standards such as EN 1561, EN 1563, EN 16079, EN 1753, EN 10088-1, EN 10095, EN 10269, EN 10302. It also covers a wide range of material groups including Gray cast iron, Ductile cast iron, Carbon steels, Stainless steels, Aluminum alloys, Copper alloys, Nickel alloys, Titanium alloys, and more.
Who Should Use It:
The MITCalc Thermal Properties of Materials workbook is ideal for engineers, designers, and researchers who need to analyze and understand the behavior of materials under different temperature conditions. It is a useful tool for anyone working on projects that require precise calculations of thermal expansion, elongation, and elasticity of materials.
Strengths:
One of the major strengths of this workbook is its extensive database of metallic materials, which allows users to access a wide range of information for their analysis. The tool provides accurate calculations and reliable results, making it a valuable resource for professionals in the engineering industry.
Overall, the MITCalc Thermal Properties of Materials workbook is a must-have tool for anyone working with materials in the field of mechanical engineering. Its comprehensive features, extensive database, and accurate calculations make it an essential resource for analyzing the thermal properties of materials.
Linear Coefficient of Thermal Expansion | EN 10095 | Mechanical Engineering | Engineering Industry | Database of Metallic Materials | Carbon Steels | Physical Properties | Behavior of Materials | Product Review | Elongation | EN 1753 | EN 1563 | Database | Gray Cast Iron | EN 10088-1 | Stainless Steels | Nickel Alloys | Material Groups | Copper Alloys | Titanium Alloys | Strengths | Modulus of Elasticity | EN 10269 | Ductile Cast Iron | Temperature | Engineers | MITCalc Thermal Properties of Materials | Aluminum Alloys | EN 16079 | Standards | Researchers | Accurate Calculations | Mechanical Properties | Metallic Materials | EN 1561