Characteristics, Purpose, Classification
Subject and UNIT: Engineering Materials and Metallurgy: Unit III: Ferrous and Non-Ferrous Metals
In general terms, alloy steels mean any steels other than carbon steels.
Definition, Characteristics, Applications, Compositions
Subject and UNIT: Engineering Materials and Metallurgy: Unit III: Ferrous and Non-Ferrous Metals
High-carbon steels are those steels that have more than 0.60% carbon.
Definition, Characteristics, Applications
Subject and UNIT: Engineering Materials and Metallurgy: Unit III: Ferrous and Non-Ferrous Metals
Medium-carbon steels are those steels that have between 0.25 and 0.60% carbon.
Classification, Characteristics, Applications
Subject and UNIT: Engineering Materials and Metallurgy: Unit III: Ferrous and Non-Ferrous Metals
As we have discussed, the ferrous materials are those materials which contain-iron as their prime constituent.
Classification, Characteristics, Types
Subject and UNIT: Engineering Materials and Metallurgy: Unit III: Ferrous and Non-Ferrous Metals
Materials are made up of matter. Materials are anything that have weight and occupy some space.
Engineering Materials and Metallurgy
Subject and UNIT: Engineering Materials and Metallurgy: Unit III: Ferrous and Non-Ferrous Metals
Understand the principal effects on properties of the major alloying ele- ments used in steels.
Heat Treatment | Engineering Materials and Metallurgy
Subject and UNIT: Engineering Materials and Metallurgy: Unit II: Heat Treatment
Essay Answer Type Questions: Heat Treatment - Engineering Materials and Metallurgy
Heat Treatment | Engineering Materials and Metallurgy
Subject and UNIT: Engineering Materials and Metallurgy: Unit II: Heat Treatment
Self-Assessment Questions: Heat Treatment - Engineering Materials and Metallurgy
Heat Treatment | Engineering Materials and Metallurgy
Subject and UNIT: Engineering Materials and Metallurgy: Unit II: Heat Treatment
Heat treatment is the controlled heating and cooling of metals for the purpose of altering their properties.
Meaning, Suitability, Process, Advantages, Disadvantages | Heat Treatment
Subject and UNIT: Engineering Materials and Metallurgy: Unit II: Heat Treatment
In addition to the various traditional surface hardening treatment techniques, there are new techniques are being guitson developed to meet the highest surface quality and mechanical properties of the components/products.
Subject and UNIT: Engineering Materials and Metallurgy: Unit II: Heat Treatment
Table 2.7 summarises some of the major defects found in steel due to faulty heat treatment, their causes, prevention, and control.
Meaning, Principle, Suitability, Procedure, Applications, Advantages, Disadvantages | Heat Treatment
Subject and UNIT: Engineering Materials and Metallurgy: Unit II: Heat Treatment
The mechanism and purpose of induction hardening are the same as for flame hardening.