Neway Precision Works Ltd R&D Team

  Plastic injection molding is a cornerstone of modern manufacturing, and it is used widely to produce everything from automotive components to consumer electronics with precision and efficiency. This complex process, however, has its challenges. Understanding common problems during production is crucial for optimizing output quality and efficiency. Injection molding involves melting plastic pellets and injecting them under high pressure into a mold where the material cools and solidifies into the final product. While seemingly straightforward, the process encompasses intricate interplays between material properties, mold design, machine settings, and environmental conditions. Any imbalance in these factors can lead to defects, increased waste, and production downtime. This blog post delves into the most frequent issues encountered in plastic injection molding production. We explore problems related to materials, mold design, process parameters, machinery, human factors, and external

Introduction to Injection Moulding Plastic Injection molding is widely used for producing large-volume custom plastic parts. It's highly beneficial for mass-production processes where the exact part is being created thousands or even millions of times in succession. The principal advantage of injection molding service is the ability to scale production en masse. Once the initial costs have been paid, the price per unit during injection molded manufacturing is meager. The price also tends to drop drastically as more parts are produced. Steps of Plastic Injection Molding The injection molding process involves six significant steps: Clamping:  The first step in the injection molding process is clamping the mold. It is done to secure and prepare the mold for the material injection. Injection:  The next step is injecting the molten plastic into the mold. The plastic is first melted in the injection molding machine and then injected into the mold, which cools and solidifies into the fin

  Metal Injection Molding (MIM) process is a manufacturing process that marries the versatility of plastic injection molding  with the strength and resilience of powder metallurgy . MIM offers a unique proposition for mass production, enabling the creation of complex, precision parts across various industries. This blog aims to comprehensively understand the MIM process, its pros and cons, and the critical considerations for mass production. What is Metal Injection Molding Metal Injection Molding (MIM) is a transformative manufacturing technology that has been shaping the industrial landscape for decades. But what exactly is MIM, and how has it evolved? Let's delve into MIM's definition, history, and role in various industries. Definition and History MIM is a process that combines the high-volume capability of injection molding with the benefits of metallic materials. It involves mixing metal powders with a binder to form a feedstock, which is then injected into a mold to crea