AISSI 4147H is a steel with low alloying elements, and it is praised for its properties such as strong, tough, and hardenability. Chemical make up of Chromium, Molybemum, Nickel, and few other elements, give it such properties that are superior to those in the standard carbon steels. It is graded to provide information about its specific alloy content and the type or treatment degree required. The AISI 4147H has exceptional tensile strength ability as well as great wear and fatigue resistance. Therefore, it is often used in different areas in automotive, aerospace as well as many other fields and the machinery industries. By depicting the mechanical properties of NVH, e.g. hardness, yield stress, and elongation on bar graphs, we can make the right decision on material selection and process optimization easier. A comprehensive table, chart and pdf is at the core which includes data sheets and material safety information that supports the right handling and utilization of AISI 4147H in various engineering applications.
AISI 4147H, a low-alloy steel, features a higher hardenability as well as considerable toughness, which makes it a major player in many manufacturing and production processes. Its chemical makeup normally comprises elements such as carbon, manganese, silicon, phosphorus, sulfur, and chromium, and sometimes nickel as well. This amazingly strong alloy also provides high wear resistance, associated with applications where the possibility of intense wear is probable. In the strength table, it presents the main characteristics of the material, i.e.,. tensile strength, yield strength, elongation and hardness. AISI 4147H is one of the most frequent alloys in the automobile, aerospace, and machine manufacturing sectors where repeatability and reliability are the main principles.
Elements | Carbon (C) | Manganese (Mn) | Chrome (Cr) | Molybdenum (Mo) | Silicon (Si) | Phosphorus (P) | Sulfur (S) | Iron (Fe) |
---|---|---|---|---|---|---|---|---|
Min (%) | 0.46 | 0.5 | 0.9 | 0.15 | - | - | - | - |
Max (%) | 0.54 | 0.8 | 1.2 | 0.3 | ≤ 0.40 | 35 | 35 | Balance |
Advantages:
High Hardenability: Readily imparts the required degree of hardness on heat treatment.
Good Toughness: Provides durability and toughness essential for structural power.
Excellent Wear Resistance: Recommended for parts subjected to abrasive wear conditions.
Good Machinability: Facilitates smooth manufacturing operations.
Disadvantages:
Limited Weldability: Requires preheating and post-weld heat treatment to minimize crack formation.
Susceptible to Corrosion: Readily corrodes in specific climates when exposed to air, moisture, and contaminants.
Costly: Higher cost compared to some other materials.
Requires Precise Heat Treatment: Incorrect treatment may poorly preserve the material's properties.
Here is another related topic that you may also like.