Introduction to the solution of FBM
The types of users most likely to benefit from FBM programming strategies fall into a number of categories. Within each category, the advantages users are likely to obtain are also varied. […]
What is Feature-Based Machining?
Feature-Based Machining(FBM) is an automated programming function that eliminates manual data entry by reading in the copious design intent information that is embedded in solid models by CAD programs. […]
What is a Digital Shape Sampling and Processing?
Digital Shape Sampling and Processing (DSSP) encompasses multiple advances in 3-D scanning technologies. It describes the ability to use scanning hardware and processing software to digitally capture physical objects and automatically create accurate 3-D models for design, engineering, inspection and custom manufacturing. […]
What is a low-volume layered manufacturing?
Low-volume layered manufacturing (LVLM) is a design-thru-manufacturing method that is already known by many different names in the short time it has been an option for engineers. Whether you call it rapid manufacturing (RM) or direct digital manufacturing, LVLM has the potential to re-define the way products are designed. This technique provides plastic engineers with [...]
Introduction to additive fabrication technology
Additive fabrication (AF) technology encompasses a wide range of applications, including design review, concept modeling, prototyping, fit and function testing, pattern making and tooling. It also is applied to the manufacture of fixtures, assembly aids and test rigs, as well as parts that end up in final products. […]
What is Rapid Manufacturing?
Rapid Manufacturing (RM), also referred to as direct digital manufacturing (DDM), is the production of end-use parts using additive fabrication processes. Recent advances in AF technologies and materials allow the manufacture of parts for a variety of production applications. […]
Get profits from Rapid Prototypes and Moldmaking
By this time in the 21st century, you should be well aware of the technologies of additive fabrication, otherwise known as rapid prototyping. These technologies have existed for more than two decades and are common tools in the product development process for most engineers and designers. […]
Introduction to Characteristics of HSM Software
It is up to the high-speed machining software to make the most of these components, and to drive the process for maximum benefit. To do this, the software should excel in four areas: (1) optimizing tooling stability, (2) promoting toolpath efficiency, (3) maximizing operating performance and (3) enhancing ease of use—both in programming and operations. [...]
Introduction to High-Speed Machining
Success with high-speed machining requires a thorough under-standing of the required tools and methods and of their benefits and limitations. […]
How to select your software supplier?
Below are some considerations for selecting your software supplier when it comes to the post-processor. […]