May 12, 2026 ,our factory successfully completed the machining of a core aluminum component for a robotics project using our advanced 5-axis CNC machining center.
The customized aluminum part has a height of 310.6mm and features a complex structural design that required high precision machining, multi-axis positioning, and strict dimensional control throughout the production process.
As one of the key structural components used in the robotics system, the part demanded excellent machining stability, surface consistency, and assembly accuracy. To ensure product quality, our engineering team optimized the machining strategy and carried out multiple dimensional inspections during production using precision measuring equipment.
This project fully demonstrated our capability in manufacturing large and complex precision aluminum components for robotics and other high end industrial applications. Our factory specializes in custom CNC machining, CNC milling, CNC turning, Swiss machining, and 5-axis machining solutions for robotics, coffee machines, industrial equipment, and advanced engineering projects
Recently, the team from Decent Espresso visited our CNC machining factory in China to further strengthen the long term cooperation between both companies in the manufacturing of high precision coffee machine components.

During the visit, Decent Espresso CEO John Buckman, project leader Johnny Au, electrical engineer Terence Kwong, and global sourcing representative Nicole Chow toured our production workshop. The visiting team focused on our 3-axis, 4-axis, and 5-axis machining centers, precision CNC lathes, quality inspection room, and custom packaging processes. They also gained a detailed understanding of our dimensional inspection procedures, anodized surface quality, stainless steel machining capability, and assembly consistency for high end coffee machine components.
John Buckman showed great interest in our grinding and surface finishing capabilities during the factory tour. Unfortunately, Ben Champion, the chief designer of the new “Bengle” coffee machine, was unable to attend the factory visit in person. However, both teams still communicated through a video conference to discuss several design and manufacturing details for future projects.
May 19, 2026
Recently, our factory successfully completed the machining of a custom brass mouse prototype for a client’s product development project.
The prototype was manufactured using advanced 5-axis CNC machining technology, allowing complex curved surface cutting and multi-angle machining in a single setup.
Due to the unique appearance structure and high surface quality requirements, our engineering team optimized the machining strategy and tool paths to ensure excellent dimensional accuracy and smooth surface finishing.
May 28, 2026
our factory completed a custom “Wing” aluminum housing project for a high-end coffee machine application. The enclosure combines CNC machining, stamping, sheet metal bending, and anodizing processes to achieve a modern appearance with high structural precision.
The material used was Aluminum 5052, chosen for its excellent formability, corrosion resistance, and suitability for anodized surface treatment.

The manufacturing process began with CNC machining on a machining center to create the precision groove textures and mounting features on the aluminum panels. After CNC processing, the parts entered the stamping and sheet metal forming stages.
One of the key challenges of this project was maintaining the consistency of the machined surface texture after multiple bending operations. To protect the visible surface quality, we prepared the parts for no-mark bending before forming, including special surface protection and customized bending tooling. This process helped prevent scratches, pressure marks, and deformation during bending.
After fabrication, the housing received an anodized finish to provide enhanced corrosion resistance and a clean industrial appearance suitable for premium coffee equipment.
For high-end appearance components, visible machining tool marks are sometimes not acceptable. In this ULTEM (PEI) machining project, the customer required a clean and uniform matte surface while maintaining the dimensional accuracy of the CNC machined part.
After precision CNC machining, the parts were finished with a 100# sandblasting process. The fine blasting media effectively reduced the visibility of machining marks and created a consistent, low-gloss texture without affecting the critical dimensions or the excellent mechanical properties of ULTEM material.
Compared with the original machined surface, the sandblasted finish provides a more refined appearance, making it suitable for exposed components used in medical devices, laboratory equipment, robotics, and high-end industrial products.
At MachiningCNCPart, we offer a range of surface finishing solutions, including sandblasting, polishing, anodizing, and passivation, helping customers achieve both functional and aesthetic requirements for custom CNC machined parts.
May 20, 2026
Recently, our factory completed a batch of precision SS316 pump piston components for a coffee equipment application. The customer required an extremely fine surface finish on the outer diameter to ensure stable sealing performance and smooth movement during operation.
To achieve the required surface roughness specification, we combined precision CNC turning with external cylindrical grinding (OD grinding). This process helped maintain dimensional accuracy while significantly improving the surface quality of the stainless steel parts.
According to the drawing requirements, the target surface finish was Ra 0.2–0.4 μm, Rz 1.0–3.0 μm, and Rmax 6.3 μm. After machining, the parts were inspected using a surface roughness tester, and both Ra and Rz values met the customer’s requirements.
The material used was food-grade Stainless Steel 316, suitable for high-end coffee machine and fluid control applications.