Technoplastic Engineering Center
Engineering expertise, laboratory analytics, and precise formulation work form the foundation of a stable industrial process. Technoplastic supports customers at every stage — from product analysis to consistent serial processing — turning technological risks into a controlled and predictable workflow.
In addition, we develop and adapt polymer solutions to specific raw materials, equipment, and operating conditions, ensuring predictable performance and repeatable quality throughout production.
1. Our Approach
The Technoplastic Engineering Center brings together the expertise of process engineers, polymer chemists, and plastics processing specialists. We don’t just select a material — we create a tailored solution for your equipment, raw materials, and product.
The foundation of our approach includes:
• data analysis
• standardized testing
• formulation adjustments based on real processing conditions
• stability control at every stage
2.1. R&D and Formulation Development
We create new compounds and masterbatches tailored to specific requirements:
• mechanical strength, stiffness, impact resistance
• heat resistance, flowability, UV protection
• compliance with industry standards
• adaptation to specific equipment
• import‑substitution formulations
• solutions optimized for working with recyclate
We work with a wide range of thermoplastics: PP, ABS, PE, SAN, PS, PC, PBT, PA6, PA66, and others.
2.2. Laboratory Testing
Our in‑house laboratory provides a full cycle of quality control, including:
• MFI (Melt Flow Index)
• Mechanical testing (strength, impact resistance)
• UV resistance and climate simulations
• Color stability and spectrophotometry
• DSC, Vicat, HDT
• Incoming and outgoing batch inspection
Every developed formulation is validated through laboratory testing before being implemented in production.
2.3. Product and Raw Material Analysis
We examine:
• product design
• functional requirements
• operating conditions
• industry standards
• raw materials used and their limitations
• the customer’s equipment parameters
Based on this analysis, we define precise technical requirements for the material.
2.4. Industrial‑Scale Trials
Our engineers visit the customer’s production site to:
• adjust processing parameters
• fine‑tune the formulation according to real production conditions
• analyze defects
• select optimal temperatures and processing speeds
• confirm process stability
We support the launch until a stable, repeatable series result is achieved.
2.5. Processing Optimization
Technoplastic helps reduce costs and improve production efficiency through:
• shortening the production cycle
• reducing brittleness, defects, and warpage
• improving flowability
• stabilizing color and surface appearance
• selecting additives and modifiers to enhance processing
• lowering scrap rates and waste
The Engineering Center works together with the customer’s process engineers as a single integrated team.
2.6. Material Selection for Specific Tasks
We develop not a universal material, but a formulation tailored to a specific requirement:
• for the product
• for the equipment
• for the climate
• for customer specifications
• for cost targets and operating conditions
Each solution is based on data, testing, and real processing conditions.
3. Technoplastic Laboratory
The laboratory is equipped with advanced tools for analytics and quality control, including:
• spectrophotometer for color analysis
• MFI tester
• impact pendulum testers
• climate‑testing equipment
• presses and ovens for specimen preparation
• raw material and batch control systems
• programmable thermal and UV aging chambers
Every batch undergoes inspection according to internal regulations and international ISO/ASTM standards.
4. Our Competencies
• engineering‑level formulation design
• defect root‑cause analysis and elimination
• selection of compounds and additives for specific processes
• work with fillers: CaCO₃, talc, GF, BaSO₄
• tuning composites for thin‑wall performance, high flowability, impact strength
• development of materials for complex products and industry‑specific requirements
5. Results Delivered by the Engineering Center
Our solutions make it possible to:
• reduce scrap and waste
• stabilize the processing workflow
• ensure predictable color and material properties
• shorten the production cycle
• improve product reliability
• lower manufacturing costs
• support import‑substitution initiatives
