With the increasing cost of global mineral resource development and fluctuations in market demand, the price of tungsten carbide (Tungsten Carbide) raw materials has shown a clear upward trend in recent years. For industrial users like us who rely on tungsten carbide products, how to maintain key properties such as wear resistance and hardness of products while reducing procurement budgets amid rising costs is directly related to the competitiveness of enterprises. Next, I will introduce 3 practical cost-saving methods from two core directions: material selection and structural design optimization, helping you optimize costs without sacrificing performance.
The most direct way to reduce costs is to start from the source of raw materials. Tungsten carbide itself is a material with high recycling value. As long as recycled tungsten carbide powder is used reasonably, it can significantly reduce raw material costs while ensuring performance.
Simply put, recycled tungsten carbide is powder re-extracted by chemical or physical methods such as the zinc melting process from waste cemented carbide tools, grinding chips, or old parts. Now the recycling process is quite mature, and the performance of purified recycled materials is not much different from that of primary materials.
In many cases, wear only occurs on a specific surface or part of the product, not the entire product. Making a full tungsten carbide structure is actually a great waste of materials, and the inlaid structure design can accurately solve this waste problem.
The specific approach is to use tungsten carbide as the "wear-resistant core" and inlay it on the base of ordinary steel or cast iron. Through welding, mechanical interference connection, or shrink fit, fix the tungsten carbide block on the most wear-prone parts, so as to achieve "wear resistance of the core part and cost control of non-core parts" with full cost performance.
| Structure Type | Tungsten Carbide Usage | Production Cost | Performance |
|---|---|---|---|
| Full Tungsten Carbide Part | 100% | High | Overall high hardness but brittle |
| Steel Inlaid with Tungsten Carbide | 10% - 30% | Low | Combines toughness of steel and wear resistance of tungsten carbide |
This method can not only directly reduce the usage of tungsten carbide materials and lower costs but also rely on the toughness of steel to avoid overall fragmentation of large tungsten carbide parts due to excessive impact force, which not only improves the safety of use but also extends the service life of the product.
Many users have a misunderstanding when purchasing, thinking that products with higher hardness, lower cobalt content, or finer grain size are better. In fact, blindly pursuing high-performance grades will only lead to a significant increase in procurement costs. Selecting grades that accurately match working conditions is the core of cost control.
In fact, when raw material prices are high, reducing tungsten carbide costs does not need to rely on accepting "low-quality" products. As long as we use recycled materials to reduce initial procurement costs, use inlaid structures to reduce material waste, and avoid premiums for excess performance through accurate selection, we can maintain a healthy profit margin while ensuring production quality.
If you are looking for a low-cost tungsten carbide solution for specific working conditions, don't worry. We can provide you with professional material analysis and structural optimization suggestions.
ผู้ติดต่อ: Mrs. Lilian
โทร: +86 159 280 92745
แฟกซ์: 86-028-67230808
Thai
