Additive solution provides you with end to end solutions, starting from Reverse Engineering all the way to Post Processing helping you achieve a positive business change. Streamlining and revolutionizing traditional processes through the integration of solutions for manufacturing, design, engineering, inspection and more.
Rapid prototyping is the group of techniques used to quickly fabricate a physical part or assembly from a three-dimensional design. With rapid prototyping, engineers and designers can create a better final product, iterating several times between digital designs and physical prototypes with a quick and cost-effective workflow.
3D scanning captures detailed digital models of physical objects. This data is used in reverse engineering to recreate or modify parts and prototypes, optimizing designs and improving product performance across industries.
Reverse engineering involves analyzing physical objects to create detailed digital models. This process allows for accurate reproduction and improvement of existing designs, aiding in product redesign, restoration, and compatibility with new technologies.
Pre-processing simulation in the manufacturing industry involves modeling, analyzing, and
optimizing processes that occur before the actual manufacturing or production starts.
These simulations help in designing efficient processes, minimizing defects, and
reducing costs. Pre-processing activities include material selection, design validation,
process planning, and the simulation of forming processes like casting, forging, and
injection molding.
Material characterization is a critical process in materials science and engineering, aimed at understanding and describing the properties and behavior of materials.
This involves various techniques and tools to analyze the composition, structure, mechanical properties, thermal properties, and other attributes of materials. Proper material characterization is essential for selecting the right materials for specific applications, improving material performance, and developing new materials.
Mechanical testing evaluates material properties and performance under various conditions. It is divided into two main types: destructive testing and non-destructive testing.
Destructive Testing involves subjecting materials to forces or stresses until they fail, determining characteristics like tensile strength, fracture toughness, and fatigue limits. Common methods include tensile tests, impact tests, and hardness tests. While it provides comprehensive data, destructive testing permanently damages or destroys the sample.
Non-Destructive Testing (NDT) evaluates the properties of materials without causing damage. Techniques like ultrasonic testing, radiography, and magnetic particle testing detect internal flaws, cracks, or inconsistencies. NDT is valuable for ensuring the integrity of components in critical industries like aerospace, automotive, and construction, without compromising the material.
3D design is the process of creating three-dimensional models using advanced software. It allows for the detailed visualization and manipulation of objects in a virtual space. This technique is essential in fields like product development, architecture, animation, and engineering. By developing digital prototypes, designers can test and refine ideas, enhance functionality, and ensure accuracy before physical production. 3D design facilitates better communication of concepts and allows for rapid iteration and innovation.