Transforming Flexibility into Industrial Strength.
In industrial applications where durability, flexibility, and high performance are essential, custom-engineered rubber components play a critical role in modern manufacturing. Turkmaksan delivers advanced rubber molding, printing, and rubber-to-metal bonding solutions using a broad range of materials—from EPDM and NBR to NEOPRENE and SBR. Each project is managed with a comprehensive engineering approach that includes detailed requirement analysis, precise material selection, and state-of-the-art production technologies. The result is long-lasting, reliable, and industry-oriented components that meet the highest quality standards.
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 Material Grade
- Material properties must match the operational temperature and load requirements.
- Specific elements may be added or removed to obtain the desired performance.
- Production temperature and environmental conditions directly influence final strength.
Step 2. Evaluating Thermal Resistance Needs
- Materials should withstand temperatures up to 1000°F (537°C).
- Temperature rating must align with the application’s thermal cycle and exposure duration.
- Thermal shock, expansion, and heat fluctuations must be analyzed to avoid deformation.
Step 3. Assessing Mechanical Load and Vibration Conditions
- Elasticity and hardness must be balanced for effective impact and vibration damping.
- Rubber-to-metal bonded parts require specialized vibration and fatigue testing.
- Continuous load applications must be validated through fatigue and endurance tests.
Step 4. Environmental and Chemical Exposure Analysis
- Resistance to oils, chemicals, humidity, and UV must be evaluated for longevity.
- Chemical interactions in the operating environment determine material suitability.
- Protective surface coatings are necessary in corrosive or abrasive conditions.
Step 5. Selecting the Proper Manufacturing Method and Mold Design
- Injection, compression, or extrusion methods should be chosen based on geometry.
- Mold tolerances must account for material shrinkage and production volume.
- Production temperature and pressure must be monitored according to QC standards.
Step 6. Protective Armor and Heat-Shielding Structures
- Flexible armor structures provide protection from heat, slag splash, and abrasion.
- Heat-resistant shield layers protect metal surfaces from thermal damage.
- Protection level should be selected based on application risk analysis.
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.
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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.
