Schnelles Prototyping

Wenn Sie im Produktdesign tätig sind, Maschinenbau, or small-batch manufacturing, you’ve probably heard the term vacuum casting thrown around. But what does it actually mean? Is it the right choice for your prototypes or low-volume parts? In diesem Ratgeber, we’ll break down exactly what vacuum casting is, walk through its step-by-step process, highlight its key benefits, […]

If you’re in rapid prototyping, Kleinserienfertigung, or DIY crafting, you’ve likely heard of silicone mold making—a flexible, cost-effective way to replicate prototypes (like plastic parts, resin crafts, or even metal components). But if you’re new to it, Sie fragen sich vielleicht: What exactly does the silicone mold making process involve? In diesem Ratgeber, wir werden brechen

When developing new medical devices, creating reliable prototypes is a make-or-break step for verifying designs, Kosten senken, and speeding up time-to-market. Among all available materials, PP plastic stands out as the top choice for medical device prototypes—and for good reason. This guide breaks down everything procurement professionals and product engineers need to know about using

For automotive engineers designing new car components and procurement teams sourcing materials, PP material (Polypropylen) is a standout choice for car prototypes. Its lightweight properties (Dichte: 0.90–0,92 g/cm³), starke Schlagfestigkeit, and excellent chemical resistance to fuels and oils make it perfect for testing parts like bumpers, Innenverkleidungen, and dashboard housings. In diesem Leitfaden wird alles aufgeschlüsselt

For engineers designing smartphones, Wearables, or IoT devices, and procurement teams sourcing materials, PP material (Polypropylen) is a game-changer for electronic prototypes. Its lightweight nature (Dichte: 0.90–0,92 g/cm³), strong electrical insulation, und Beständigkeit gegenüber Chemikalien (like cleaning solvents) make it ideal for parts such as device casings, Batteriehalter, and internal component brackets. This guide walks you

For aerospace engineers and procurement teams, creating prototype models that meet strict industry standards is non-negotiable. PP material (Polypropylen) has emerged as a reliable choice for aerospace prototypes, thanks to its unique blend of lightweight properties (Dichte: 0.90–0,92 g/cm³), impressive mechanical strength, and exceptional chemical resistance—all critical for simulating components like cabin panels, ducting, or sensor housings.

If you’re an engineer or procurement professional tasked with building a drone prototype, choosing the right material is make-or-break. PP material (Polypropylen) stands out for drone prototypes thanks to its unbeatable mix of lightweight (density just 0.90–0.92 g/cm³), hohe Schlagfestigkeit, and excellent chemical resistance—critical for testing components like frames or propeller guards. Dieser Leitfaden

If you’re turning a product idea into reality, understanding the prototype making process is essential to avoid delays, wasted materials, and design flaws. A well-executed prototype bridges the gap between digital designs and physical products—helping you test functionality, refine aesthetics, and validate ideas before mass production. Unten, we break down every key stage of the

If you’re working on rapid mold processing, screen printing your prototype model is a cost-effective way to add clear patterns, Text, or logos—critical for testing design aesthetics and functionality. But doing it right requires following precise steps and avoiding common mistakes. Unten, we break down the entire process, share key tips for success, and include

Wenn Sie in der Produktentwicklung tätig sind, picking the right prototype factory can make or break your project. A good factory delivers high-quality prototypes on time to keep your timeline on track, while a poor one leads to delays, flawed parts, and wasted budget. To help you make an informed choice, we’ve broken down 10 must-check factors—with

Wenn Sie in der Produktentwicklung tätig sind, you’ve likely wondered about the key distinctions between prototype parts and injection molding products. These two stages play vital but very different roles in turning a product concept into a market-ready item. To help you make clear decisions for your project, we’ll break down their differences from production processes to

Wenn Sie Produktentwickler sind, Ingenieur, or entrepreneur navigating the product lifecycle, Sie haben wahrscheinlich gefragt: “What is the difference between prototype parts and mold parts?” While both are physical versions of a product design, they serve entirely different roles—one focuses on testing and refinement, the other on mass production for the market. Mixing them up

Wenn Sie Produktentwickler sind, Designer, or entrepreneur looking to turn an idea into a physical object, Sie haben sich wahrscheinlich gefragt: “Should I work with a prototype factory or a model factory?” At first glance, both seem to create “physical versions of a design”—but their goals, Prozesse, and outputs are worlds apart. Choosing the wrong one

Wenn Sie Produktdesigner sind, Ingenieur, or entrepreneur gearing up for prototype development, one of the first and most critical questions you’ll face is: What materials can be used for prototype processing? The right material choice directly impacts your prototype’s functionality, Haltbarkeit, kosten, and even how well it represents the final product. In diesem Ratgeber,

If you’re a product developer or designer, one of the most pressing questions you’ll have is: how long does rapid prototype lead time take? The answer isn’t a simple number—several key factors directly impact how quickly you can get your prototype in hand. In diesem Ratgeber, we’ll break down each factor, provide real-world timelines, Und