Precision in Every Mold, Strength in Every Metal.
Metal injection molding and casting deliver high precision, exceptional durability, and consistent quality in complex industrial components. With an engineering-driven approach, Turkmaksan optimizes every stage of the metal injection process to provide industry-specific, high-performance manufacturing solutions.
We are an Integrated Engineering Firm of Agile and Experienced Engineers, Skilled in a Wide Variety of Engineering Work.
We Understand The
Full Scope Of Your Project
The fact that we are a self-performing, design-build contractor means that we understand the full scope of your project. From planning and design to building and inspections.
Key Considerations
When it comes to hardware engineering and design, having a battle-tested process is of the essence. We know how it’s done, yet we are flexible in function of your situation.
Step 1. Selecting the Correct Metal Alloy
- Steel, aluminum, or zinc alloys should be selected based on mechanical load requirements
- Alloy composition must be optimized for wear, corrosion, and impact resistance.
- High-temperature applications require alloys with superior thermal stability.
Step 2. Engineering-Focused Mold Design
- Gate, cooling, and ejector systems must match the geometry of the part.
- Shrinkage and deformation risks should be calculated and tolerances optimized.
- Mold steel must withstand high-pressure and thermal cycling conditions.
Step 3. Proper Adjustment of Injection Parameters
- Injection pressure must be optimized for thin-wall or complex-shaped parts.
- Mold temperature should remain stable to ensure consistent metal flow.
- Injection speed must reduce porosity and prevent flow defects.
Step 4. Post-Processing: Heat Treatment & Surface Finishing
- Heat treatment increases hardness and structural integrity.
- Surface finishing (polishing, coating, blasting) improves appearance and performance.
- Protective coatings should be used for corrosive or extreme environments.
Step 5. Dimensional Precision & Quality Control
- Dimensional verification should be done using CMM and 3D scanning systems.
- NDT methods must be applied to detect cracks, porosity, and flow defects.
- Production parameters should be recorded to ensure batch-to-batch consistency.
Step 6. Application-Specific Structural Requirements
- Tensile and compressive strength must be verified for load-bearing parts.
- Thermal, impact, and vibration requirements should be supported by engineering reports.
- Optimal wall thickness must be designed for compact, lightweight performance.
our latest news
Innovations & Insights
Stay informed with Türkmaksan’s latest articles, industry insights, and engineering updates. Discover innovations, trends, and best practices in CNC machining, metalworking, and advanced manufacturing.
CNC Machining Companies in Turkey: Engineering-Based Manufacturer Selection
Zamak Die-Casting Molds: Precision, Durability, and Industrial Excellence
What Is Flange Manufacturing? A Complete Guide to CNC Precision Flange Production in Industrial Applications
CNC Part Manufacturing in the Aviation and Space Industry: The Production Power Shaping Future Technologies
What Factors Affect CNC Machining Costs?
Key Considerations in Gear Manufacturing: Material, Workmanship, and Quality Control Guide
Connect With Türkmaksan.
Send us a message to have all your questions answered about Türkmaksan products and services
We Are Present All Over The World
We engineer reliable solutions that eliminate production risks and deliver high-quality results, even in the most demanding manufacturing environments. Our focus is precision, efficiency, and long-term performance for every component we produce.
