Our equipment reflects the practical, hands-on manufacturing capabilities that support precision work across a wide range of industries. This section provides a snapshot of the machines and technologies we use daily, along with short introductions to the processes they support.
Rather than simply listing models, we’ve included brief notes to help visitors understand what each group of equipment is designed for — from machining and finishing to inspection and supporting operations. Together, these capabilities demonstrate our readiness to handle both development and production work with consistency and care.
| Type | Brand / Model | Travel (mm) |
|---|---|---|
| CNC Milling Machine 3 Axis | Topper, Taiwan (Model : TMV-850A) | 850 x 850 x 820 |
| CNC Milling Machine 3 Axis | AWEA AF-1600 II | 1,800 x 740 x 810 |
| CNC Milling Machine 3 Axis | AWEA, Taiwan (Model : FV-560) | 580 x 510 x 480 |
| CNC Milling Machine 3 Axis | AWEA, Taiwan (Model : FV-850) | 650 x 540 x 480 |
| CNC Milling Machine 3 Axis | Hartford, Taiwan (Model : CNC M5) | 1,100 x 800 |
| CNC Milling Machine 3 Axis | Chevalier, Taiwan (Model : QR - 2033L) | 1,020 x 530 x 510 |
| CNC Lathe Machine | OKUMA, Japan (Model : Soarer L270) | 270 x 800 |
| CNC Lathe Machine | OKUMA, Japan (Model : Soarer L390) | 390 x 820 |
| CNC Lathe Machine | OKUMA & HOWA, Japan (Model : HJ-18) | 230 x 450 |
| Conventional Milling Machine | Brand / Model | 500 x 300 x 400 |
| Conventional Lathe Machine | Brand / Model | 500 x 1000 |
| EDM Machine | Brand / Model | 600 x 400 x 250 |
| Drilling Machine | Brand / Model | 1000 x 500 x 500 |
| Grinding Machine | Brand / Model | 300 x 150 x 150 |
| Wire Cut | Brand / Model | 350 x 250 x 200 |
Following is a brief description of the key processes of Canyon Technology, for more please visit this site
https://www.xometry.com/resources/machining/types-of-machining-processes/
CNC Milling – 3 Axis
3-axis CNC milling uses computer-numeric-controlled cutting tools that move along the X, Y, and Z axes to machine parts from solid material. It is suitable for flat surfaces, slots, pockets, and simple 3D shapes. This process is cost-effective and widely used for general precision components with straightforward geometries and is a cost effective process. At Canyon, we use vacuum chucks and in-house designed fixtures that securely holds work pieces and control chip removal for very fine cosmetic finishes.
CNC Milling – 5 Axis
5-axis CNC milling adds two rotational axes to the standard X, Y, and Z movements, allowing the cutting tool to approach the workpiece from multiple angles in a single setup. This enables the machining of complex shapes, deep cavities, and tight tolerances with improved accuracy, better surface finish, and reduced loading times due to the ability to incorporate the rotating and tilting axes to X, Y and Z axes. With our 5-axis CNC machines, Canyon has machined components for the orthopedic and medical robotic industries.
CNC Turning
CNC turning is a machining process where the workpiece rotates while a stationary cutting tool removes material. It is ideal for producing round or cylindrical components such as shafts, bushings, and threaded parts. CNC turning delivers high dimensional accuracy, consistent repeatability, and efficient production for both simple and complex turned parts. Some complex parts are made with both CNC milling and CNC turning processes and Canyon Technology has both to well serve when the need arises.
EDM and Wire EDM
Electrical Discharge Machining (EDM) removes material using controlled electrical sparks rather than cutting force. EDM (sinker EDM) is used for complex cavities and hardened materials where the hardness of the material itself is higher than that of cutting tools. Wire EDM uses a thin wire electrode to carry the electric charge to cut precise profiles and intricate shapes. Both processes are ideal for hard materials, tight tolerances, and delicate features without inducing mechanical stress.
Grinding – Surface and Centreless
Grinding is a finishing process where abrasive wheels are used to achieve tight tolerances and superior surface finishes. Surface grinding produces flat, smooth surfaces with high precision. Centreless grinding is used for cylindrical parts without the need for centres, making it efficient for high-volume, consistent diameter components. Grinding is commonly applied where accuracy, roundness, and surface quality are critical.