In the wave of continuous pursuit of innovation and breakthroughs in the electronic product industry, we are always committed to finding more advanced technologies and processes to enhance the performance and quality of our products. Fourslide Multi Slides Parts have gradually become a key element in the electronic product manufacturing process due to their unique processing advantages and excellent performance. This precision part manufactured through the four slider process can efficiently produce high-precision, complex shaped components, meeting the diverse needs of electronic products from core structure to functional components, injecting new vitality into the development of the industry.
1. Fourslide Multi Slides Parts realizes the manufacturing of precision structural components for electronic products
In the design and production of electronic products, we use Fourslide Multi Slides Parts to manufacture precision structural components. Taking smartphones as an example, the key structural components such as the metal frame and camera bracket inside are processed through a four slider multi slider process. This process can accurately control the size and shape of the parts, ensuring a tight fit between each component, and the error can be controlled at the micrometer level. This high-precision structural component not only provides stable support for the chips, batteries, and other components inside the phone, but also effectively enhances the overall strength and drop resistance of the phone. After testing, smartphones using such structural components have reduced the probability of screen breakage and internal component damage by about 35% in drop testing. In addition, Fourslide Multi Slides Parts also plays an important role in the manufacturing of heat dissipation module brackets for laptops. The brackets manufactured by Fourslide Multi Slides Parts can accurately fix heat sinks and fans, ensuring efficient operation of the heat dissipation system.
2. Fourslide Multi Slides Parts optimizes electronic product heat dissipation components
Heat dissipation is a key factor affecting the performance of electronic products, and we use Fourslide Multi Slides Parts to optimize the design of heat dissipation components. In the manufacturing of heat sinks for gaming laptops and high-performance desktops, the use of four slider multi slider technology can produce heat sinks with complex shapes and high-density fins. This process can quickly form fine heat dissipation fins on metal plates, increasing the heat dissipation area by about 40% compared to traditional processes, effectively improving heat dissipation efficiency. At the same time, due to the high precision of the parts, the adhesion between the heat sink and the heating elements such as CPU and GPU is better, which can quickly dissipate heat. According to thermal imaging testing, the use of heat sinks manufactured by Fourslide Multi Slides Parts can reduce the temperature of the core components of electronic products by 8-10 ℃, avoiding performance degradation and system instability caused by overheating, and extending the service life of electronic products.
3. Fourslide Multi Slides Parts assists in the production of electronic product connecting components
Reliable connecting components are crucial in the internal connections of electronic products. We produce high-quality metal connection terminals, spring contacts, and other components through Fourslide Multi Slides Parts. The four slider and multiple slider technology can process metal materials into parts with special shapes and elasticity, such as spring contacts used for connecting mobile phone motherboards and batteries. It not only ensures tight contact with battery contacts, but also provides buffering during phone vibrations or temperature changes to prevent poor contact. In the SIM card slot, storage card interface and other parts of the tablet computer, metal buckles and connectors manufactured by Fourslide Multi Slides Parts are used, which have good wear resistance and insertion and extraction life. After testing, they can withstand more than 10000 insertion and extraction operations without damage, effectively ensuring the data transmission and power supply stability of electronic products.
4. Fourslide Multi Slides Parts drives innovative design of electronic products
With the increasing demand for personalized electronic products from consumers, we utilize Fourslide Multi Slides Parts to drive innovative design. In the hinge structure design of foldable screen smartphones, metal hinge components with complex surfaces and precise structures are manufactured through the four slider multi slider process. This technology can achieve high-precision processing of hinges, making the opening and closing process of foldable phones smoother, while ensuring a tight fit of the screen in the folded state, effectively preventing dust and moisture from entering. In addition, in the design of some wearable devices such as smart watch case decorations, strap connectors, etc., the unique shaped parts manufactured by Fourslide Multi Slides Parts not only enhance the beauty of the product, but also enhance its practicality and durability, providing more possibilities for innovative design of electronic products.
5. Fourslide Multi Slides Parts improves electronic product production efficiency and cost control
In the production process of electronic products, we utilize Fourslide Multi Slides Parts to significantly improve production efficiency and control costs. The multi slider collaborative operation mode of this process can complete multiple complex processes in one machining stroke, which increases production efficiency by about 50% compared to traditional machining processes. Meanwhile, due to the continuous processing of coil materials, the material utilization rate is over 90%, effectively reducing raw material waste and lowering production costs. When producing metal frames for smartphones on a large scale, the use of four slider multi slider devices increased the hourly output from 600 pieces to 900 pieces, reducing production costs by about 20%. Moreover, its fast mold changing feature enables us to quickly switch the production of different models of products, flexibly respond to changes in market demand, and enhance the market competitiveness of the enterprise.
