Silicone molding is a manufacturing process that transforms liquid or semi-solid silicone raw materials into elastomeric products with specific shapes and properties. It serves as the backbone of producing everything from daily necessities (Z.B., Küchenutensilien) to high-precision industrial parts (Z.B., Siegel). But with multiple molding techniques available, how do you choose the right one […]
Silicone mannequins are lifelike human form or body part models made primarily from liquid silicone rubber through an infusion molding process. Their key advantages lie in ultra-high realism and elasticity, allowing them to replicate tiny details like skin texture, muscle lines, even fingerprints and blood vessels. Heute, they play a critical role in healthcare, film,
Silicone mold processing is a precision manufacturing technique that transforms liquid silicone rubber (LSR) or condensed silicone rubber into elastic, detail-rich molds. By infusing uncured silicone onto prototype surfaces, it replicates complex structures—from 0.05mm micro-textures to large architectural components. Its core strengths (niedrige Kosten, short cycle, high customization) make it a go-to for rapid sampling,
TPU (Thermoplastisches Polyurethan) and silicone are two versatile elastomeric materials, but their unique chemical structures, processing methods, and performance traits make them suited to distinct applications—from consumer electronics to medical devices. Understanding their differences is critical to avoiding costly material mismatches (Z.B., using TPU for high-temperature seals or silicone for load-bearing parts). This article breaks
The question “Is silicone elastic?” has a definitive answer: Yes—silicone is a highly elastic material, and this trait is one of its most valuable characteristics. Im Gegensatz zu starren Materialien (Z.B., Metalle) that deform permanently under stress or brittle materials (Z.B., Glas) that break, silicone can stretch, biegen, or compress and return to its original shape. Das
Silicone seals are specialized sealing components made from silicone rubber—an elastomeric material celebrated for its exceptional resistance to extreme temperatures, Altern, und Chemikalien. Unlike traditional rubber seals (Z.B., nitrile, EPDM), they balance flexibility, Haltbarkeit, and environmental safety, making them indispensable across industries from electronics to medical devices. In diesem Artikel werden ihre Kerneigenschaften aufgeschlüsselt, Typen,
Silicone hardness test is a critical quality control and R&D tool for silicone products—from soft baby bottle nipples to hard automotive gaskets. It measures a silicone’s resistance to indentation, directly reflecting its flexibility, Haltbarkeit, and suitability for end-use. This article breaks down the two most common test methods (Shore and Rockwell), Schlüsseleinflussfaktoren, Und
Für die Silikonverklebung sind spezielle Klebstoffe erforderlich – gewöhnliche Klebstoffe (wie Weißleim oder normaler Sekundenkleber) fail to adhere to silicone’s low-surface-energy surface. The right glue depends on your project’s needs: whether you’re bonding silicone to silicone, silicone to metal/plastic, or need high temperature resistance or fast curing. Dieser Artikel schlüsselt die auf 4 core glue types for
Condensed silicone and additive silicone are two dominant silicone polymer types, each with unique chemical compositions, curing behaviors, and performance traits. The choice between them directly impacts project costs, Präzision, and application suitability—whether you’re making DIY crafts, industrial molds, oder medizinische Geräte. This article breaks down their differences across 7 kritische Dimensionen, with clear comparisons,
High-temperature silicone is a specialized elastomeric material engineered to withstand extreme thermal conditions while retaining critical properties like elasticity, Chemische Stabilität, and insulation. Unlike standard silicone (which typically maxes out at 150°C), it thrives in environments ranging from -60°C to 300°C (with some grades handling short bursts of 350°C+), making it indispensable for industrial sealing,
Silicone mold reproduction is a versatile manufacturing technique that uses flexible silicone molds to replicate prototypes—from artisanal figurines and handicrafts to industrial parts. Unlike rigid metal molds, it prioritizes cost-effectiveness, detail retention, und Small-Batch-Produktion, making it a go-to choice for designers, crafters, und kleine Unternehmen. This article breaks down its core workflow, Materialauswahl,
Transparent silicone mold flipping is a specialized mold-making technique that uses high-transparency silicone materials to replicate prototypes with exceptional detail accuracy. Unlike opaque silicone, its transparency lets users monitor casting material flow, detect bubbles in real time, and verify detail replication—making it ideal for precision-critical applications like optical parts, Medizinprodukte, and decorative crafts. Das
Silicones for mold-flipping (also called mold-turning silicones) are specialized rubber materials designed to create reusable molds for replicating prototypes—from art crafts to industrial parts. Their flexibility, detail-retaining ability, and adjustable curing properties make them indispensable for small-batch production and product development. This article breaks down the main types of mold-flipping silicones, their core characteristics, Anwendung
Vacuum duplicating products are high-precision replicas created by pouring liquid materials (Z.B., Harz, Polyurethan) into molds—made from prototypes like 3D prints or CNC parts—under vacuum conditions. This process eliminates air bubbles, ensuring the final product mirrors the prototype’s shape, Textur, and details with exceptional accuracy. Von Automobilteilen bis hin zu medizinischen Geräten, these products play a
Rapid prototyping molds are specialized tooling solutions that combine fast prototype manufacturing (Z.B., 3D Druck) with mold replication processes to produce small-batch parts efficiently. Unlike traditional steel molds— which require weeks of machining and high upfront costs—rapid prototyping molds prioritize speed, Flexibilität, und Kosteneffizienz, making them a cornerstone of product development, custom manufacturing, and niche
Plastic compound mold processing—also known as vacuum injection molding or soft mold casting—is a cost-effective manufacturing method for producing plastic parts using reusable silicone-based molds. Unlike traditional steel mold processes, it prioritizes speed, Flexibilität, and detail replication, making it ideal for small-batch production and product development. This article breaks down its core definitions, Schritt-für-Schritt-Workflow,
