Knitwear QC Guide: Shrinkage, Pilling, and Tension Control for OEM/ODM Manufacturing
Quality control (QC) is the backbone of reliable knitwear manufacturing. Regardless of yarn type, gauge, stitch structure, or season, every knitted garment must pass strict technical evaluations to ensure it meets brand standards for fit, stability, durability, hand-feel, and long-term performance.
The three most critical QC factors in knitwear production are:
Shrinkage control
Pilling resistance
Tension and dimensional stability
This guide provides a complete OEM/ODM technical breakdown of how factories manage QC—from yarn testing to panel control, washing protocols, finishing, and final inspection—ensuring consistent production for luxury, high-street, uniform, and performance knitwear.
Why QC Matters in Knitwear Manufacturing
Unlike woven fabrics, knitwear is a loop-based structure that naturally stretches, shrinks, and reacts dynamically to tension, humidity, yarn twist, machine settings, and washing.
Poor QC leads to:
Garment shrinkage beyond tolerance
Uneven measurements
Neck stretching
Pilling after only 1–2 wears
Fabric distortion
Twisted side seams
Inconsistent sizing across batches
OEM/ODM QC Responsibilities
A professional knitwear factory evaluates quality at four levels:
Yarn-level QC
Machine-level QC (knitting tension)
Panel-level QC (shape, size, shrinkage)
Finished-garment QC (pilling, appearance, fit)
Each step affects the next.
Shrinkage Control in Knitwear
What Causes Shrinkage in Knitwear?
Shrinkage occurs when knitted loops tighten during washing, steam finishing, or drying.
Major causes include:
High yarn hairiness
Low yarn twist
Loose machine tension
Unbalanced stitch density
Wrong washing condition
High agitation during laundry
Fiber type (wool > viscose > cotton > synthetics)
Different fibers shrink differently, requiring unique control methods.
Shrinkage Standards for Brands
Typical Acceptable Shrinkage (after 1–3 washes)
Cotton / cotton blends: 3–5%
Viscose / modal / Tencel: 4–8%
Wool / merino: 2–4%
Acrylic / synthetics: <2%
Wool blends: 2–3%
Poly/cotton uniforms: <1%
Testing Standards
Shrinkage testing usually follows:
ISO 6330 (most common)
AATCC 135 (US brands)
Factories typically test shrinkage during:
Yarn testing
Panel washing
First sample
PPS (Pre-production sample)
During bulk QC AQL checks
How Factories Control Shrinkage
Yarn-Level Prevention
Increase yarn twist
Higher twist = lower shrinkage risk.
Use pre-shrunk or steamed yarn
Especially important for viscose, wool, and cotton.
Knitting-Level Prevention
Tightening stitch density
Prevents loop relaxation.
Controlling machine tension
Unstable tension = unpredictable shrinkage.
Washing & Finishing Prevention
Pre-washing test panels
Before producing the full garment.
Gentle washing
Lower RPM, lower agitation.
Controlled drying
Tumble drying increases shrinkage for cotton/viscose.
Measurement Prevention
Over-measurement (positive ease)
Panels purposely knitted larger to compensate for shrinkage.
Common Shrinkage Problems & Solutions
Viscose/Modal/Tencel Shrinkage
High shrinkage risk
Fabric grows when wet, shrinks when dry
Factory controls:Pre-shrinking
Balanced tension
High-twist viscose
Reduced agitation washing
Wool Shrinkage (Felting)
Wool fibers lock together during agitation
Factory controls:Use Superwash wool
Gentle wool washing programs
Avoid high temperatures
Cotton Skewing / Twisting
Caused by uneven yarn twist
Factory controls:Use combed cotton
Balanced knitting tension
Pilling Control in Knitwear
What Causes Pilling?
Pilling occurs when loose fibers on the yarn surface entangle and form small balls due to friction.
Primary pilling factors:
Short fibers (recycled cotton, cashmere, low-grade wool)
Low yarn twist
Soft acrylic
Loose stitches
Friction during wear
Improper finishing
Pilling Standards
Pilling Tests Used by Factories
ISO 12945-2 (Martindale method)
ASTM D4970
Random Tumble Pilling Test (AATCC 151)
Typical Pilling Grades (1–5 scale)
Grade 5 – No pilling
Grade 4 – Excellent
Grade 3 – Acceptable for fashion retail
Grade 2 – Poor (reject)
Grade 1 – Severe pilling (reject)
Brand Requirements
Luxury brands: Grade 4–5
High-street: Grade 3–4
Fast fashion: Grade 3
Uniforms: Grade 4+
How Factories Prevent Pilling
Fiber-Level Control
Choose long-staple fibers
Longer fibers = less hairiness.
Fiber blends
Nylon improves durability when blended with wool or viscose.
Yarn-Level Control
Increase yarn twist
Higher twist = fewer loose fibers.
Anti-pilling yarn technology
Mechanical or chemical surface treatment.
Knitting-Level Control
Adjust stitch density
Loose knits pill more easily.
Use plating or twist-support yarns
Adds stability to the face yarn.
Finishing-Level Control
Anti-pilling wash
Removes surface fuzz.
Shearing / singeing
Removes protruding fibers before washing.
Common Pilling Issues & Solutions
Soft Acrylic Sweaters Pill Easily
Solution: Use low-pilling acrylic blends or acrylic/nylon blends.
Viscose Pilling
Solution: Use high-twist viscose yarn + tighter stitch density.
Wool Pilling
Solution: Superwash wool or wool/nylon blends.
Cashmere Pilling
Solution: Longer cashmere fiber, higher twist, anti-pilling finishing.
Tension & Dimensional Stability in Knitwear
Why Tension Control Is Critical
Tension determines stitch size, fabric density, and panel shape.
Poor tension causes:
Crooked panels
Uneven sleeve lengths
Neckline collapse
Rib distortion
Shrinkage inconsistency
Misaligned jacquard/intarsia patterning
How Factories Control Tension
Machine-Level Control
Yarn feeder calibration
Ensures yarn enters the machine with consistent pull.
Take-down roller settings
Controls how tightly the knitted panel is pulled downward.
Machine humidity
Viscose, cotton, and wool behave differently in varying humidity.
Yarn-Level Control
Balanced twist
Uneven twist = panel skewing.
Lot consistency
Different yarn lots → inconsistent tension.
Panel-Level Control
Measure before & after washing
Factory compares pre-wash vs post-wash stability.
Common Tension Problems & Solutions
Panel Narrowing
Too tight take-down tension
Yarn too dry
Solutions: Lower tension, increase humidity.
Panel Growing (Too Wide)
Loose tension
Overfeeding yarn
Solutions: Increase stitch density and adjust feeder.
Rib Trims Stretching Out
Low twist
Loose rib structure
Solutions: Plated ribs / elastic yarn support.
Jacquard Pattern Distortion
Uneven tension between colors
Solution: Individual feeder adjustment per color.
OEM/ODM QC Workflow (Factory Standard)
Stage 1: Yarn QC
Tests
Count accuracy
Twist
Evenness (USTER)
Tensile strength
Moisture regain
Hairiness
Stage 2: Knitting QC
Controls
Tension consistency
Needle condition
Gauge precision
Stitch size
Panel shape
Stage 3: Washing & Finishing QC
Checks
Shrinkage
Skewing
Colorfastness
Hand-feel consistency
Dimensional stability
Stage 4: Final QC
Inspection
Full measurement
Linking/seam strength
Pilling test
Visual defects
Matching between panels
Factories use AQL standards (AQL 1.5–2.5 depending on brand requirements).
