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We provide technical consulting for the industrial manufacturing sector: high-durability pattern drafting for protective workwear, tensile strength testing of synthetic fibers under extreme thermal conditions, and ergonomic studies for assembly-line uniforms. No retail, no fashion — only engineering-grade textile solutions.
Accredited testing, ergonomic design, and pattern engineering for protective workwear and industrial textiles.
Synthetic fibers under extreme thermal stress
Accredited lab analysis of aramid and polyamide yarns at up to 350°C. Custom thermal chamber integrated with universal testing machine. Protocol follows ASTM D7269 and ISO 5079 adapted for elevated temperatures. Results include stress-strain curves, modulus retention, and creep behavior.
Protective gloves, fire-resistant coveralls, conveyor belt reinforcements
Reducing musculoskeletal strain in repetitive tasks
Motion capture analysis of reaching, bending, and twisting identifies pressure points. Articulated sleeves, gusseted crotches, and strategic panel placements reduce fabric drag. Designs tested in simulated production line with heart rate and RPE monitoring. Graded patterns and wear trial protocol included.
Automotive, electronics, and food processing plants
Patterns engineered for extreme abrasion and tear resistance
Parametric CAD drafting with hazard environment analysis — sharp edges, molten splashes, chemical sprays. Double-stitched seams, reinforced elbows and knees, snag-free pocket designs. Validated through abrasion (ASTM D3884), tear (ASTM D2261), and puncture (ASTM F1342) tests. Deliverables include graded pattern files, BOM, and sewing instructions.
Welding jackets, chainsaw chaps, chemical splash suits
One technical consultation can identify weak points in your pattern geometry or fiber selection before you commit to production tooling.
Our services are grounded in industrial standards, motion data, and material science — not fashion trends.
We don’t simulate — we break fibers at 350°C, measure creep under load, and publish the raw stress-strain curves. Every pattern we draft is validated against ASTM D3884, D2261, and F1342 before it leaves our lab.
Our ergonomic designs start with motion capture of real assembly-line tasks — reaching, bending, twisting. We map pressure points and restriction zones, then engineer patterns that reduce RPE by up to 18% in controlled trials.
Every pattern is built in a parametric CAD system, allowing rapid iteration of seam placements, reinforcement zones, and closure systems. Deliverables include graded files, BOM, and sewing instructions — ready for production.
Trusted by manufacturers in
Clarifications on our industrial testing and pattern drafting processes.
We follow ASTM D7269 and ISO 5079, adapted for elevated temperatures up to 350°C. Our thermal chamber integrates with a universal testing machine to measure breaking load, elongation, and creep behavior under sustained heat.
We use motion capture analysis of workers performing typical tasks — reaching, bending, twisting — to identify restriction zones. Patterns are then developed with articulated sleeves and gusseted panels, tested in a simulated line with heart rate and RPE monitoring.
We work with aramid, polyamide, UHMWPE, and other high-durability synthetic fibers. Each pattern is validated through abrasion (ASTM D3884), tear (ASTM D2261), and puncture (ASTM F1342) tests to ensure industrial-grade resilience.
Yes. Our final deliverable includes graded pattern files in standard formats, a bill of materials, and detailed sewing instructions. We also supply a wear trial protocol for on-site validation.
Our clients include manufacturers of protective gloves, fire-resistant coveralls, conveyor belt reinforcements, welding jackets, chainsaw chaps, and chemical splash suits. We also serve automotive, electronics, and food processing plants.