H13 Tool Steel Injection Molding parts offer exceptional hardness, with a Rockwell C hardness of up to 50-60, ensuring durability and long-lasting performance. It makes them ideal for components subjected to high stress and wear, such as tooling inserts and cutting blades in power tools. Additionally, H13 Tool Steel MIM Sintered Parts boast excellent thermal conductivity, ensuring efficient heat dissipation, which is crucial for applications involving intense heat generation, like high-speed machining.
Moreover, their precise dimensional accuracy, with tolerances as tight as ±0.1 mm, guarantees consistency and reliability in manufacturing processes. In the Consumer Electronics industry, where miniaturization and precision are paramount, these parts find applications in connectors and electrical contacts. Furthermore, H13 Tool Steel MIM Sintered Parts are corrosion-resistant and crucial for components exposed to harsh environmental conditions, like outdoor power tools.
Handheld Power Tool Gears
Power Tool Saw Blade Mounts
0.32 - 0.45
4.75 - 5.50
0.20 - 0.50
1.10 - 1.75
1.10 - 1.75
Tensile Strength (MPa)
Yield Strength (MPa)
Impact Strength (J/cm²)
Young's Modulus (GPa)
H13 Tool Steel MIM Sintered Parts find valuable applications in switch assemblies, particularly in industries like Telecommunication and Consumer Electronics. Firstly, their exceptional hardness, reaching up to 48 HRC, ensures the longevity and durability of switch components, even under frequent use.
Moreover, H13 Tool Steel MIM Sintered Parts offer precise dimensional accuracy with tight tolerances, critical for switch assemblies, where any variation in component size can lead to malfunction. Additionally, their excellent thermal conductivity assists in efficiently dissipating heat generated during switch operations, preventing overheating and ensuring reliable performance.
H13 Tool Steel MIM Sintered Parts are excellent for power tool driver components due to their unique properties, especially in the Power Tools industry. Firstly, their remarkable hardness, with a Rockwell C hardness of up to 48 HRC, makes them exceptionally wear-resistant. Power tool driver components must endure continuous mechanical stress and friction during operation, ensuring long-term durability.
Furthermore, the precise dimensional accuracy and tight tolerances of H13 Tool Steel MIM Sintered Parts are essential for maintaining the precision and reliability of power tool mechanisms. These components can withstand high levels of mechanical stress while maintaining their shape and integrity, contributing to power tools' overall efficiency and safety.
H13 Tool Steel MIM Sintered Parts are exceptionally well-suited for handheld power tool gears, offering critical advantages in the Power Tools industry. Firstly, their high hardness, typically reaching 48 HRC, makes them ideal for gears subjected to heavy loads and high-speed rotations. This exceptional hardness ensures minimal wear over time, increasing the lifespan of the gear components.
Additionally, the precise dimensional accuracy of H13 Tool Steel MIM Sintered Parts ensures that the gears maintain their shape and fit precisely, reducing friction and improving overall efficiency in handheld power tools. Moreover, their excellent thermal conductivity helps dissipate heat generated during prolonged tool operation, preventing overheating and potential damage to the gears.
H13 Tool Steel MIM Sintered Parts are exceptionally well-suited for power tool saw blade mounts, offering numerous advantages in the Power Tools industry. Firstly, their outstanding hardness, often reaching 48 HRC, makes them ideal for saw blade mounts that must endure substantial mechanical stress and abrasion during cutting operations. This hardness ensures longevity and minimizes wear, contributing to extended blade life.
Moreover, H13 Tool Steel MIM Sintered Parts provide precise dimensional accuracy with tight tolerances, critical for securing saw blades precisely in power tools. This precision ensures that the blade is perfectly aligned, reducing vibration and enhancing the quality of cuts. Additionally, their robust thermal conductivity aids in efficient heat dissipation during prolonged cutting tasks, preventing overheating and ensuring the safety and performance of the saw blade mounts.
Neway has gradually improved the production system of basic hardware, plastic, and ceramic non-standard parts after 30 years of growth from the original CNC workshop. As well as polishing, PVD, and simple assembly lines. Provide one-stop, non-standard manufacturing services to our customers.