What Does “Size Pick-Up” Mean in Textiles?
Size pick-up refers to the percentage increase in the weight of the warp yarn after applying size materials. It indicates how much sizing agent (starch, PVA, acrylic, binders, etc.) is deposited on the yarn surface.
In simple terms:
Higher pick-up = more size coating on yarn
Lower pick-up = less size coating on yarn
Pick-up directly impacts weaving behavior. Too high or too low results in defects, uneven fabric appearance, loom stoppages, and unnecessary chemical waste.
Alpenol’s sizing agents are engineered to work effectively at lower pick-up levels while still delivering high adhesion and flexibility—helping mills improve cost-efficiency and weaving stability.
Definition of Size Pick-Up in Textile Processing and Finishing
Size pick-up (%) is defined as:
The percentage of dry size added to warp yarn during sizing, measured as the increase in weight of the yarn after sizing compared to its unsized state.
This value helps determine:
Size adhesion
Film formation
Yarn flexibility
Abrasion resistance
In cotton and blended yarns, optimized pick-up provides both strength and smoothness. Excessively high pick-up, however, increases stiffness and brittleness.
How to Measure and Calculate Size Pick-Up
Formula for Size Pick-Up (%)
Size Pick-Up (%) = (Weight of Sized Yarn−Weight of Unsized Yarn / Weight of Unsized Yarn) ×100
Step-by-Step Procedure
Take a sample of warp yarn before sizing (conditioned).
Weigh the yarn → Record as Weight of Unsized Yarn.
Take the corresponding sized yarn after drying.
Weigh again → Record as Weight of Sized Yarn.
Apply formula to calculate pick-up.
Typical Pick-Up Ranges
Cotton warp: 8–14%
PC blends: 5–10%
Filament yarns: 0–5% (often optional)
Alpenol products help mills achieve the same strength at lower solids, therefore requiring controlled but reduced pick-up levels compared to traditional starch-only systems.
How Does Sizing Affect Pick-Up and Hand Feel in Cotton Fabrics?
The amount of size absorbed determines:
1. Yarn Hand Feel
Higher pick-up → stiffer yarn
Lower pick-up → softer but weaker yarn
2. Fabric Surface Smoothness
Proper pick-up reduces hairiness → smoother fabric
Excess pick-up creates harshness → poor drape
3. After-Weaving Handle
Incorrect pick-up can affect:
Flexibility
Crispness
Lustre
Fabric fall
One advantage of well-engineered sizing systems like Alpenol is that they create a flexible film even at low add-on, ensuring the final fabric retains natural softness after desizing and finishing.
Factors Affecting Size Pick-Up Percentage in Weaving
1. Yarn Properties
Fiber type (cotton absorbs more than polyester)
Yarn count (finer counts take less)
Hairiness (higher hairiness → higher pick-up needed)
Twist level
2. Size Bath Characteristics
Viscosity
Temperature
Concentration
Solids content
Wetting efficiency
Alpenol's formulations maintain stable viscosity over long runs, reducing pick-up variation.
3. Sizing Machine Settings
Squeeze roller pressure
Warp tension
Immersion depth
Speed of slasher or multibox machine
4. Environmental Factors
Moisture content of yarn
Relative humidity in sizing room
Why Is Controlling Size Pick-Up Crucial in Textile Production?
1. Weaving Efficiency
Correct pick-up reduces:
Warp breakages
Loom stoppages
Dust formation
2. Fabric Quality
Incorrect pick-up leads to:
Harsh handle
Uneven dyeing
Bar lines
Weak warp sections
3. Cost Optimization
Too high pick-up wastes chemicals; too low reduces strength.
Alpenol systems are favored in mills aiming to reduce and optimize overall size usage without compromising performance.
4. Consistency Across Lots
Pick-up variation causes shade differences and inconsistent weaving behavior.
Difference Between Size Pick-Up and Add-On in Textiles
These two terms are often confused, but they are different:
Size Pick-Up
Increase in weight of yarn during sizing
Expressed as % of yarn weight
Specific to sizing process
Add-On
Total amount of chemicals added
Used in sizing, finishing, coating, and various textile processes
Expressed relative to fiber weight or fabric weight
Pick-up is a measurement of actual absorption; add-on is a measure of applied chemistry.
Types of Sizing Agents Used for Optimum Size Pick-Up
1. Natural Polymers
Starch
Modified starches (oxidized, carboxymethylated)
2. Synthetic Polymers
PVA
Acrylic copolymers
Polyester resins
3. Blended Sizing Agents
Combinations of starch + binders
4. Modern High-Performance Systems
Low-add-on single-shot systems
Cold-water soluble, low-viscosity drift formulas
Alpenol is known for such controlled systems, allowing mills to achieve optimum pick-up with high adhesion at reduced chemical usage.
Best Practices for Controlling Size Pick-Up for Textile Quality Assurance
1. Maintain Stable Viscosity
Measure every 1–2 hours during production.
2. Keep Consistent Size Bath Temperature
Typically 85–90°C for starch-based systems.
3. Calibrate Squeeze Roll Pressure Regularly
Uneven pressure → uneven pick-up → woven defects.
4. Control Warp Tension
High tension reduces penetration; low tension increases pick-up.
5. Use High-Performance, Low-Variation Sizing Systems
Modern formulations like Alpenol help stabilize pick-up even during long shifts.
FAQs
1. What is size pick-up in textiles?
It is the percentage of sizing material absorbed by warp yarn during sizing.
2. Why is size pick-up important?
It directly affects warp strength, weaving efficiency, and fabric quality.
3. What is the difference between pick-up and add-on?
Pick-up is the weight increase of yarn; add-on refers to total applied chemicals.
4. How is pick-up measured?
Using weight difference before and after sizing, expressed in %.
5. What is the ideal pick-up?
Varies by yarn type; Alpenol systems enable lower but more effective pick-up.
External References
Textile School – Sizing and warp preparation
https://www.textileschool.com/articles/warp-sizing/Textile Learner – Sizing materials and calculations
https://textilelearner.net/sizing-in-textile/NPTEL – Sizing process lectures (IIT)
https://nptel.ac.in/courses/116/102Fibre2Fashion – Warp sizing technology article
https://www.fibre2fashion.com/industry-article/warp-sizingScienceDirect – Polymer film formation & adhesion studies
https://www.sciencedirect.com/topics/engineering/sizing
Indian Textile Journal – Advances in sizing & weaving preparationhttps://indiantextilejournal.com
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Disclaimer
The information provided in this blog is intended solely for educational and informational purposes within the textile industry. While the content references technical concepts, sizing and desizing practices, and general chemical information, it does not constitute professional, commercial, or operational advice for any specific textile process or production environment.
Process conditions, chemical selections, and operational parameters may vary significantly across mills, machinery types, fabric constructions, and environmental constraints. Readers should always consult qualified technical professionals, internal laboratory data, and product-specific Technical Data Sheets before making any decisions related to textile processing.
Any references to Alpenol, Sizaltex, or other products are included only for contextual, educational, and illustrative purposes and should not be interpreted as endorsements, recommendations, or guarantees of performance. The authors assume no responsibility for decisions made based on the information contained herein.