Product Description
| Product Name | Machinery Hardware Casting Part |
| Brand name | Zeren |
| Model | CB035 |
| Material | Stainless Steel |
| Classification | Machinery Hardware Casting Part |
| Process | Investment Casting + CNC Machining |
| Certification | ISO9001:2015 |
| Customized support | OEM |
Technical Parameters
| Product General Specs | |
| Material | Austenitic stainless steel: 201, 303, 304, 316, 316L, 1.4581, scs14, scs16 |
| Hardened stainless steel:17-4PH, 410, 420, 440C | |
| Alloy cast steel: 4140, 4150, 4340, 8620, GS-25CrMo4 | |
| Casting alloy tool steel: CS-2, CS-7, CrWMn | |
| Carbon steel: 1020, 1025(WCB), 1030, 1040, 1045, 1050 | |
| Weight | 1g-30kg |
| Casting tolerance | CT4-CT7/GBT6414-1999; VDG Merkblad P690 |
| Surface Roughness | Ra1.6-Ra6.3 |
| Thickness | Min 2mm (1mm in Micro-region) |
| Casting Radius | Round radius ≥0.3mm, Internal fillet radius≥0.5mm |
| Blind Hole Depth | Max 30mm (Diamter 10mm) |
| Machining | Turning,Milling,Drilling,Boring,Threading, Grinding,CNC Machining & test equipment |
| Heat Treatment | Annealing,Hardening, Normalizing,Carburizing, Aging |
| Surface Finishing | Black Oxide,Black Coating,Anti-Pollution Flashover Coating,Mirror Polish |
| Industry Standards | ASTM, ICI, BS, DIN, JIS, ISO |
| Design Software | Pro-E, UG,Solidworks, AutoCAD |
| File Format | IGS, STP, XT, PDF, JPEG, JPG |
Product Uses & Advantage
Uses:
1. Automotive Ignition Systems: Casting parts play a crucial role in automotive ignition systems such as distributor housings, ignition coil housings, and spark plug connectors, facilitating the generation, distribution, and delivery of high-voltage electrical sparks to ignite the air-fuel mixture in internal combustion engines for combustion.
2. Renewable Energy Remote Power Systems: Casting parts are employed in renewable energy remote power systems such as standalone solar power systems, wind-solar hybrid systems, and microgrid solutions, providing reliable and sustainable electricity generation for remote or off-grid applications such as telecommunications, remote sensing, and rural electrification.
3. Aerospace Cabin Pressure Systems: Casting parts are essential components of aerospace cabin pressure systems such as pressure bulkheads, cabin doors, and window frames, ensuring proper sealing and pressurization of the aircraft cabin to maintain a comfortable and safe breathing environment for passengers and crew at high altitudes.
Advantages:
1. Expanded design possibilities: Casting techniques unlock a wide range of design possibilities, allowing for the creation of complex shapes, intricate details, and customized features.
2. Improved material selection guidance: Casting experts provide guidance on material selection based on performance requirements, environmental factors, and cost considerations, ensuring optimal material usage.
3. Enhanced risk mitigation strategies: Casting facilities implement robust risk management protocols to identify, assess, and mitigate potential risks throughout the production process, ensuring product quality and safety.
.
Product Application
Here are some specific application scenarios of Machinery Hardware Casting Part:
Surface Roughness Measurement: Machinery hardware casting parts undergo surface roughness measurement processes, where profilometers, atomic force microscopes (AFMs), or optical interferometers are used to quantify the texture, waviness, and roughness of the part's surface, providing critical information for evaluating functional performance, frictional behavior, and surface finish quality.
Hardness Testing: Machinery hardware casting parts undergo hardness testing processes, where techniques such as Rockwell, Brinell, Vickers, or Knoop hardness tests are conducted to measure the resistance of the part's surface to indentation or penetration by a standardized indenter, providing insights into material properties, heat treatment effects, and mechanical performance.
Tensile Testing: Machinery hardware casting parts undergo tensile testing processes, where specimens are subjected to controlled tensile forces to measure their strength, ductility, and elasticity, providing valuable data for material characterization, quality assurance, and design optimization in engineering and manufacturing applications.
Impact Testing: Machinery hardware casting parts undergo impact testing processes, where specimens are subjected to sudden and controlled impacts to assess their toughness, resilience, and resistance to fracture or failure under dynamic loading conditions, commonly used in materials testing, product qualification, and failure analysis.
Fatigue Testing: Machinery hardware casting parts undergo fatigue testing processes, where specimens are subjected to cyclic loading conditions to evaluate their endurance limit, fatigue life, and crack propagation behavior, providing critical insights into the part's durability, reliability, and safety performance over time.
