Explore the key drawbacks of two-plate moulds: limited gating options, manual runner removal, and their impact on production efficiency and part quality.
Discover the key benefits of three-plate molds, including automatic degating, superior gating flexibility, and improved part quality for high-volume production.
Explore the key disadvantages of two-plate molds, including restrictive gating, cosmetic blemishes, and flow balancing challenges in multi-cavity production.
Learn the step-by-step process for pressing clay into molds, from preparation to release. Avoid common mistakes like trapped air and cracking for perfect results.
Discover how press molds create uniform parts with unmatched consistency, high efficiency, and superior surface quality for craft and industrial production.
Compare vulcanized rubber, RTV silicone, and metal molds for jewelry casting. Learn which mold type is best for your master pattern and production scale.
Explore Bulk Molding Compound (BMC) and Sheet Molding Compound (SMC) processes, plus flash, positive, and semi-positive mold designs for optimal part production.
Learn why mold filling is vital for part quality in injection molding. Discover how to prevent defects like short shots and weld lines for superior results.
Discover the key differences between standard injection molding and insert molding. Learn when to use each process for stronger, more functional plastic parts.
Learn how a mold transforms digital designs into millions of identical parts via injection molding and die casting, enabling cost-effective mass production.
Learn the 4 key stages of injection molding: clamping, injection, cooling, and ejection. Understand how to optimize each stage for part quality and cost efficiency.
Learn the key stages of moulding processes like injection moulding (clamping, injection, cooling, ejection) and powder sintering for metal/ceramic parts.
Explore the 3 main rubber molding processes: injection, compression, and transfer molding. Learn the pros, cons, and ideal applications for each method.
Explore mold manufacturing methods: CNC machining & EDM for durable steel molds, or 3D printing for rapid prototyping. Choose the right process for your project.
Learn the components of mold release spray, including carrier liquids and active agents like silicone and wax, and how to choose the right one for your project.
Learn the 3 core systems of an injection mold: the base, cavity tooling, and ejection system. Understand how they work together to shape plastic parts.
Learn the step-by-step process of mold press, or compression molding, from material preparation to final part ejection. Understand the role of heat and pressure.
Hot pressing is used to create dense, high-strength ceramics, composites, and friction components. Learn how it enhances material properties and efficiency.
Learn the difference between hot pressing and slip casting for ceramics. Discover which method suits your needs for dense industrial parts or hollow studio ware.
Learn how positive compression molding delivers superior part density, eliminates material waste, and is ideal for complex geometries and expensive materials.
Learn the core parts of an injection mold, including the cavity, core, runner system, and ejector pins, and how they work together to shape plastic parts.
Learn the core parts of a mold assembly: mold base, mechanical components, and cavity tooling. Understand their functions for better design and production.
Learn the step-by-step process of ceramic slip casting, from mold preparation to finishing, to create flawless and consistent ceramic pieces every time.
Hot isostatic pressing (HIP) cycle time varies widely. Understand the key phases—heating, pressurization, hold, and cooling—and the factors that determine total duration.
Discover how Hot Isostatic Pressing (HIP) eliminates porosity in metals, ceramics, and 3D-printed parts to enhance strength, durability, and reliability for critical applications.
Learn the key differences between flash, positive, semi-positive, and landed positive compression molds to optimize your part quality, material usage, and cost.
Learn the systematic process of mould assembly, from component preparation and functional testing to final validation for high-performance injection moulds.
Discover how isostatic pressing consolidates powders and heals defects in metals, ceramics, and composites for aerospace, medical, and energy applications.
Learn how bulk heat treatment provides uniform hardness, ductility, and toughness throughout metal components for consistent performance in demanding applications.
Learn the 3-stage heat treatment sequence: heating, soaking, and cooling. Understand how to control each stage to achieve desired hardness, toughness, and ductility.