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How to Prevent Hoop Stress in Insert Molding

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How Prototype Molds Speed up the Production Process

A surprising number of projects are completed without using a prototype mold—the general idea being that a prototype mold is just an extra step that slows down overall development and production adding unncessary cost. Actually, just the opposite is true—without a prototype mold, a lot of adjustments are usually required on the production tool, driving up cost which in turn causes delays in production.

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In-House Mold Contouring Reduces Project Timeline

Injection molders typically rely on outside mold builders to custom-build molds for their clients. Molds rarely arrive with perfect dimensions; typically, after the mold is received, checked out, and tested, adjustments need to be made to the mold to assure all design specifications are met. For most injection molders, this requires sending the mold out for those final adjustments, which burns up a lot of valuable time. Kaysun, however, has the ability make these adjustments in-house and “fine tune” molds after initial sampling to modify the mold core/cavity geometry and achieve the desired dimensions.

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5 Factors That Impact Injection Molded Plastic Part Cycle Time

Cycle time directly influences part cost and capacities, so keeping it as low as possible is generally the overarching goal of engineers and project managers. In getting quotes from various injection molders they may be confronted with divergent cycle time estimates, calling accuracy and the molder’s capabilities into question.

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Tight Tolerance Molding Can Be a Loose Term

Customers count on their injection molders for expert advice. “Tight tolerance” is a term that is often tossed around loosely in the industry—however, if it’s not done right, parts and products will underperform or possibly fail, resulting in a tooling and/or process overhaul. Therefore tight tolerance is serious business, especially for complex, mission-critical parts.

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GD&T: A Practical Approach to Dimension and Tolerance

Geometric dimensioning and tolerancing (GD&T) is a symbolic language that is used on engineering drawings and computer-generated models to communicate geometric dimensions and allowable tolerance for various parts. Not only is this a useful exercise for product design, it’s also helpful on the manufacturing floor because engineers and operators can quickly see the degree of tolerance that is required for each part.

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Innovation in Injection Molding Process, Design and Tooling

While the injection molding process is a mainstay for many industries, it isn’t static. Molders are continually challenged with evolving their knowledge and use of emerging tooling technologies, materials and trends to make products that are competitively advantageous and profitable for manufacturers.

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Chemical Resistant Resins for Medical Applications

Critical-use medical devices are essential in the performance of important and often life-saving tasks. As such, they often boast complicated designs and functionality that require the expertise of a complex injection molder to produce. However, that’s only part of the equation.

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What is Design of Experiments in Scientific Molding?

Each new injection molding project has three inherent goals: performance for the customer; production efficiency for the manufacturer; and reliability for the end user. These goals are reasonable. The challenge lies in accomplishing all three within a desired timeframe and budget. To do so, plastics engineers at complex injection molders turn to Design of Experiments (DOE) to identify flaws that would otherwise derail project success.

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Finite Element Analysis Is Critical for Plastic Parts

The exact strength and flexibility of plastics can be easily determined with finite element analysis (FEA) techniques. The FEA process subdivides the product or part into finite-sized units of simple shape. Mathematical equations are used to test each unit for displacement, from which the stresses and strains can be calculated.

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