Custom CNC Maching Service Company China

We have various processing equipment that can achieve interactive processing of parts such as turning, milling, drilling and tapping. The weight range of the processed parts is 0.5kg-5000Kg; The size range for processing is 3mm-1600mm.

Balasen has various mechanical processing equipment, including horizontal lathes, horizontal boring machines, vertical lathes, vertical boring machines, 3-axis machining centers, large-sized marking tables, FARO measuring arms, and other processing and testing equipment.

Core technology: CNC milling (high-precision, multi material compatible).

Material diversity: stainless steel, aluminum alloy, carbon steel, engineering plastics, etc., supporting heat treatment to optimize performance.

Application areas: automotive (gears, valve bodies), aerospace (structural components), medical equipment (precision components).

Advantages: Flexible customization, fast delivery, and controllable cost.

Quality control: ISO certification, full-size testing, alloy composition and mechanical performance testing.

Get a Quote

Types of Custom Machining

Custom Machining Gallery

4 axis horizontal machining center

horizontal machining center

gantry machining center

cnc vertical lathe

vertical lathe

cnc vertical lathe

The Importance of Customized Processing in the Production of Special Products

High flexibility and adaptability

Support non-standard designs (such as irregular parts, microporous structures), break through traditional process limitations, and meet special functional requirements in fields such as aerospace and medical equipment.

Complex structure precision molding

By combining CNC multi axis machining and 3D printing technology, high-precision manufacturing of complex geometries such as internal flow channels and lightweight topological structures can be achieved.

Quick response in small batches

No need for large-scale mold investment, shortened delivery cycle (can be as low as 72 hours), suitable for R&D trial production and emergency orders.

Optimization combination of materials and processes

Match alloys, engineering plastics, and composite materials as needed, combined with heat treatment/surface coating to enhance high temperature resistance, corrosion resistance, and other properties.

Cost controllability

Avoiding excess inventory in standardized production and optimizing process paths to reduce unit costs, especially suitable for high value-added products.

Summary:

Customized processing solves the core pain points of precision, structure, timeliness, and cost for special products through technology integration and flexible production, promoting innovation iteration and market competitiveness.

The Core Assistance of Customized Processing for Small Batch Production

Eliminate mold costs

The traditional mold making cost accounts for a high proportion (up to 70%), and customized processing (such as CNC, 3D printing) directly forms, reducing the cost of a single piece by 30% -60%.

Rapid iterative verification

Support real-time design modifications (such as prototype testing), shorten the delivery cycle to a few days, and accelerate product development and market testing.

Low cost implementation of complex structures

Multi axis CNC or additive manufacturing can process complex features such as thin walls and internal cavities, avoiding assembly of parts and reducing manual labor and errors.

Flexible adaptation to multiple materials

Switch materials such as aluminum, titanium, and engineering plastics as needed to meet the requirements of small batch special working conditions (such as high temperature resistance and biocompatibility).

Minimize inventory and waste

Produce according to orders, avoid excess inventory in traditional batch manufacturing, and increase raw material utilization by 20% -40%.

Summary:

Customized processing solves the pain points of "high cost, low efficiency" in small batch production through technological flexibility, demolding, and rapid response, especially suitable for high value-added fields such as automotive prototypes and medical equipment, and promotes the transformation of agile manufacturing.