Success in the injection molding business isn’t limited to having the right equipment or the latest technologies. It's a good start, of course, but it takes more to meet the needs of customers that require custom injection molding for complex applications completed under challenging time and cost constraints.
Custom injection molders must have top toolmakers in their supply chains that prioritize manufacturing excellence and customer service. Core to this philosophy is that toolmakers must treat the injection molders’ customers as their own.
Plastics are extremely versatile, making them sought-after materials across a range of industries. For instance, in the United States the transportation/automotive and construction industries are two of the three major markets that account for the more than $31 billion spent annually on plastic components and products.1
One of the main advantages of using injection-molded components is versatility in the plastics available for specific, often complex, applications.
Addressing plastics needs early in the design process is ideal, as is partnering with an experienced custom injection molder with plastics-specific expertise. Working together ensures the plastics have the characteristics needed for the job, and that materials-based complications will not arise during design and molding.
According to global aging data compiled by the United Nations, by 2050 1 in 6 people in the world will be over the age of 65.1 That's a dramatic jump from current statistics that place the same segment of the population at 1 in 11.1
As a result — and in light of spikes in medical demand due to COVID-19 for all age groups — healthcare is rapidly shifting from clinics and hospitals to in-home care and smaller, non-traditional facilities.
Prototyping an injection-molded component is necessary to ensure proper quality and performance. Rapid tool prototyping and prototyping for injection molding production are two standard prototyping options, and each has its own advantages — but which is right for your projects?
Several industrial sectors are converting metal components to plastic to gain efficiencies in cost, weight, performance, aesthetics, and durability. While these are compelling reasons to consider plastic versus metal, the process isn’t necessarily right for all industrial applications.
A comprehensive feasibility analysis can help you determine if your project is suitable for metal-to-plastic conversion by evaluating it from three fundamental perspectives: design, manufacturability, and return on investment.
With a stunning 75% of automotive manufacturers reporting business interruption caused by the COVID-19 shutdown of non-essential businesses, many are taking a hard look at the impact of supply chain globalization1. More specifically, automotive OEMs are either proactively reshoring or planning to reshore to protect their supply chains — and businesses — from the political and economic fallout created by the pandemic.
Manufacturing processes can be susceptible to inefficiencies. Continuous improvement practices counteract these shortcomings by proactively identifying and eliminating them, thereby improving process and part quality. In turn, quality parts perform better, longer which is a win-win for the injection molder and OEM.
Custom injection molding projects are, by nature, an expensive undertaking. Part development and tooling design/build often account for the majority of the budget, particularly in the case of intricate components. The consistency, quality, and cost of the part produced largely hinge on optimizing these two aspects of the project. Missteps can lead to expensive setbacks, product defects, and lower profits.