To CNC or not to CNC?
“Traditional” processes at WayKen cover CNC plastic/metal parts machining, vacuum injection molding and rapid injection molding. In the case of CNC machining, a solid block of raw material can be used.
One of the main advantages of this process is material availability as virtually any material can be CNC machined. For this reason, and its use in industry since the 1940s, CNC machining remains the most common means of prototyping to date
WayKen specializes in an ability to machine a range of plastics (opaque and optically clear) and aluminum. In the CNC process, a toolhead gradually subtracts material from a solid block. As such, molecular stability of the base material remains constant producing a part with unparalleled tensile strength.
CNC operation is determined by computer aided design (CAD) or computer aided manufacturing (CAM) data translated into Gcode – as used by 3D printers. The precision tool path in a CNC system creates an excellent surface finish, and parts can be sanded and finished on the same machine.This method is ideal for making master models for casted products, and stress-resistant products. Objects made out of aluminum resist corrosion, and are widely used in airplane and car manufacturing. As of 2017, WayKen even has a new 5 axis machining center for high efficiency and precision of CNC parts.
Or 3D print?
3D printing services at WayKen are primarily laser-powered, offering a high level of speed and accuracy. WayKen stereolithography (SLA) is a UV based curing process, and selective laser sintering (SLS) uses a carbon dioxide laser.
The primary SLA material used by WayKen is an ABS-like photopolymer, suitable for use in the lost-wax method of casting favoured in jewelry making and dental industries. SLS uses powdered Nylon feedstock, which acts like a support material throughout 3D printing, cutting down post-processing times. Parts made using SLS also benefit from the potential of nesting meaning that more designs can be 3D printed within the same build.Both 3D printing processes allow fast turnaround, typically just 2 – 5 days, meaning that a product can be tested and modified accordingly before reaching a final prototype. With minimal material wastage, and operating costs, the price of 3D printing is very competitive.
Selecting the right process
The question is – which technology should you choose? As a WayKen spokesperson states, “it is very difficult to get a standard answer to the cost comparison between 3D printing and CNC machining.” Instead, technology should be selected based on application.
SLS and SLA 3D printing are useful for fast response solutions. With digital operational tools like slicer software, the process does not require as much specialized training as CNC machining. With little labour involved, the manufacturing cost of 3D printing is priced based on the amount of materials. As larger parts cost more 3D printing is advantageous for small volumes and lightweight parts. Realtively simple structures, wth less demand for surface quality and precision parts, also benefit the most from WayKen’s 3D printing services. The technology is ideal for protoyping small medical devices, industrial tooling, and outer covering of electrical tools.
CNC machined parts at WayKen on the other hand can be used to make functional prototypes which are suitable for engineering evaluation and testing. In contrast to the SLA and SLS services offered, CNC machining requires specially trained engineers to pre-program the processing parameters and toolpaths, then machine according to the programs. Manufacturing costs are therefore quoted taking the extra labor into account. CNC’s advantage is for machining parts with special requirements such as dimensional tolerances and surface qualities.
In some cases, it may even be beneficial to combine both additive and subtractive manufacturing process to complete an end goal. As an example, SLA and SLS could be used as a preliminary stage before moving the CNC machining.
Specific use cases at WayKen include rapid prototyping for the automotive industry and development of medical devices.
The rapid production time of 3D printing means it is finding increased uses throughout the medical industry. WayKen SLA & SLS 3D printing for medicine can be used to make hand held appliances, concept models, and new devices in low volume, e.g. diagnostic equipment, surgical instruments, electronic apparatus and ultrasonic systems. These devices are valuable for surgical planning, simulation and also to map dental correction procedures.
In automotive, WayKen applies a plethora of CNC prototyping and rapid tooling methods to the production of spare parts. The services are useful to car manufacturers running limited trials of a car/motorcycle, and allow volume customization. WayKen automotive rapid prototyping is delivered as a complete service, guiding customers through proof of concept design reviews and mechanical component engineering tests, to show car projects and exterior/interior prototypes.For all processes, WayKen Rapid engineers can provide 3D data and design verification before objects are produced.
As far as resolution is concerned, the accuracy of CNC machining at WayKen is typically higher than 3D printing, between 0.02mm and 0.05mm – 0.10mm depending on geometry. Turnaround time for 3D printing is typically faster at just 2-5 days versus 3 – 8 days for CNC. This does however come at a tradeoff with the volume of products than can be produced. A typical SLA/SLS run can create 1 – 10 parts, whereas CNC has a range of 1 – 50.
The competitive price point for all services, according to the company’s website, is “normally 30%-50% less than the US/European prices, due to lower labor costs. Moreover allowing a quick project start compares to other rapid prototype companies.”
Luckily, the company’s quoting system quickly responds to enquiries within 24 hours by our allowing “On-time delivery — every time, no exceptions.” Request a quote from WayKen Rapid online now at WayKen.com.