Precision Manufacturing Gallery & Project Portfolio
Explore selected machined parts, materials, surface finishes, inspection details and manufacturing applications from Tik Precision’s CNC machining, turning, 5-axis, sheet metal and finishing capabilities.
Surface Finish
5-Axis Parts
Inspection
Selected Precision Parts and Manufacturing Details
A curated view of machined parts, surface finishes, inspection details and manufacturing applications. These examples help buyers understand the type of projects Tik Precision can support.
Precision Components for Functional Applications
Selected milled and turned parts with tight features, clean edges and production-ready surface quality.
Anodized Aluminum Parts
Complex Geometry Parts
Round Precision Components
Parts, Drawings and Quality Review
Browse Projects by Manufacturing Process
Use these visual categories to understand different manufacturing capabilities, from CNC milling and turning to 5-axis machining, sheet metal, surface finishing and inspection support.
- All
- CNC Milling
- CNC Turning
- 5-Axis
- Sheet Metal
- Surface Finish
- Inspection
Materials, Finishes and Application Possibilities
Different materials and surface finishes create different performance, appearance and application results. These story cards show how materials, machining processes and finishing options can work together.
Aluminum 6061 / 7075
Aluminum Parts
Lightweight, machinable and suitable for structural, electronic and automation components.
Stainless Steel 303 / 304 / 316
Stainless Steel Parts
Used for corrosion resistance, strength and durable industrial or regulated applications.
POM / PEEK / Nylon
Engineering Plastic Parts
Suitable for fixtures, insulation parts, lightweight mechanisms and low-friction components.
Brass / Copper / Bronze
Brass & Copper Parts
Common for electrical, connector, instrumentation and appearance-sensitive components.
Inspection, Packaging and Delivery Details
Manufacturing quality is not only about the finished part. Inspection records, drawing review, part protection, labeling and packaging details also help reduce communication and delivery risks.
Parts, Drawings and Final Quality Check
Dimensional inspection and drawing review help confirm key features before shipment.
Critical Dimension Verification
Finish and Appearance Control
Separated and Protected Parts
Labels, Records and Delivery Support
Frequently Asked Questions About Parts, Materials and Projects
These answers help buyers understand how to use this gallery, request similar parts, choose materials and prepare project information for quotation.
Yes. The gallery showcases representative machining projects. Similar parts can be evaluated based on your CAD files, drawings, materials, tolerances and production quantity.
Most images are based on real manufacturing projects or representative production samples. Some images may be edited for presentation clarity, but they reflect actual machining capabilities and manufacturing processes.
Yes. Many designs can be produced in aluminum, stainless steel, brass, titanium or engineering plastics depending on performance, weight, corrosion resistance and budget requirements.
Yes. Surface treatments such as anodizing, polishing, sandblasting, passivation, plating and coating can be selected according to project requirements.
Please send CAD files, 2D drawings, material requirements, tolerance notes, surface finish specifications and estimated quantities. Our engineering team will review the project and recommend a suitable manufacturing process.
The projects displayed on this page are selected examples intended to demonstrate machining capability, materials, finishes and manufacturing experience. Available processes and solutions may vary depending on project requirements.
Have a Similar Part or Custom Manufacturing Requirement?
Send your CAD files, drawings, material, finish and quantity requirements. Our engineering team can review your project and recommend a suitable machining, finishing and inspection route.
CAD files and 2D drawings
Material and surface finish
Tolerance and critical features
Quantity and delivery requirements





