Pulp drying machines — whether integrated with a pulp mill or operating as market pulp dryers — present a fundamentally different set of challenges from paper machine dryer sections. The sheet entering the dryer is a thick (1-3 mm), high-moisture (50-65% water content) pulp web with no surface quality requirements — unlike paper, pulp is sold by weight and cleanliness, not by surface finish. This shifts the dryer fabric performance priorities entirely toward: maximum evaporation capacity (the pulp web carries 2-4 times more water per square meter than a paper sheet), maximum mechanical durability (pulp dryer fabrics run under higher tension on wider machines, often 5-8 meters, and must survive the abrasive effects of unbleached pulp fibers), and maximum contamination resistance (pulp carries residual cooking chemicals, lignin, and extractives that deposit aggressively on fabric surfaces). Pulp dryers typically run at lower speeds (100-400 m/min) than paper machines, but the combination of extreme moisture load, chemical aggressiveness, and wide-format dimensions creates a uniquely demanding fabric application.
Pulp drying machines — whether integrated with a pulp mill or operating as market pulp dryers — present a fundamentally different set of challenges from paper machine dryer sections. The sheet entering the dryer is a thick (1-3 mm), high-moisture (50-65% water content) pulp web with no surface quality requirements — unlike paper, pulp is sold by weight and cleanliness, not by surface finish. This shifts the dryer fabric performance priorities entirely toward: maximum evaporation capacity (the pulp web carries 2-4 times more water per square meter than a paper sheet), maximum mechanical durability (pulp dryer fabrics run under higher tension on wider machines, often 5-8 meters, and must survive the abrasive effects of unbleached pulp fibers), and maximum contamination resistance (pulp carries residual cooking chemicals, lignin, and extractives that deposit aggressively on fabric surfaces). Pulp dryers typically run at lower speeds (100-400 m/min) than paper machines, but the combination of extreme moisture load, chemical aggressiveness, and wide-format dimensions creates a uniquely demanding fabric application.
Hidden Costs
Downtime, energy waste, and sheet defects from suboptimal fabricsEfficiency Loss
Generic solutions don't match your specific operating conditionsDecision Delay
Procurement cycles stretch without engineering-grade selection guidancePAPTEX pulp-dryer-grade fabrics are engineered for the high-moisture, high-contamination, wide-format conditions of pulp drying. Air permeability is specified at the upper end of the polyester dryer fabric range — 550-700 CFM — to maximize moisture removal from the thick, wet pulp web. The fabric uses a robust flat yarn construction with high-thread-density weaving for maximum mechanical durability under the sustained tension loads of wide-format pulp dryers. PTFE coating is strongly recommended for all pulp dryer applications — regardless of pulp type — because residual cooking chemicals (black liquor carryover in kraft pulp, sulfite liquor residues) and wood extractives (pitch, fatty acids, resin acids) deposit aggressively on uncoated fabric surfaces. The PTFE barrier reduces chemical adhesion by 30-40% and significantly extends the interval between chemical cleaning cycles. Edge treatment uses double epoxy reinforcement to withstand the elevated edge wear of wide-format (5-8 m) operation.
High CFM range (550-700) — engineered for the extreme evaporation load of thick pulp webs
PTFE coating strongly recommended — 30-40% reduced chemical adhesion from pulp process carryover
High-thread-density flat yarn construction — maximum mechanical durability for wide-format pulp dryers
Double epoxy edge reinforcement — withstands the elevated edge stress of 5-8 m wide machines
Chemical-resistant specification — proven in kraft, sulfite, mechanical, and dissolving pulp applications
100% Polyester (PET) Monofilament
400 – 1,200 m/min
6 – 14 months (varies by paper grade and operating conditions)
12 – 400 g/m²
Core parameters for Polyester Dryer Fabric. See the product decision page for complete specifications.
| Material | 100% Polyester (PET) Monofilament |
| Construction | Flat yarn, multi-shed weave |
| Air Permeability | 350 – 650 CFM (at 125 Pa, ISO 9237) |
| Continuous Operating Temperature | Up to 180°C |
| Peak Temperature | 200°C (≤ 15 minutes) |
| Tensile Strength (Warp) | ≥ 80 kN/m |
| Tensile Strength (Weft) | ≥ 45 kN/m |
| Elongation at Break (Warp) | ≤ 2.5% at 80 kN/m |
Compatible Machine Brands
Pulp dryer fabrics are often treated as an afterthought compared to paper machine fabrics — but the economics argue otherwise. A pulp dryer producing 1,000-2,000 ADMT (air-dry metric tons) per day consumes enormous amounts of steam — and a fabric with suboptimal CFM or contamination-degraded permeability increases steam consumption proportionally. PAPTEX pulp-dryer-grade fabrics with PTFE coating and machine-specific CFM optimization typically reduce dryer steam consumption by 5-8% compared to standard uncoated fabrics, while extending service life from 8-12 months to 12-18 months. On a 1,500 ADMT/day pulp dryer, the combined steam savings and reduced change-out frequency typically return the fabric cost difference within 3-4 months.
vs Competitors
In-House Manufacturing
120,000 m² factory, 500+ employees. Every step in-house — no outsourcing.Engineered to Your Machine
38+ senior engineers custom-design to your machine brand, model, and speed. Not off-the-shelf.Triple ISO Certified
ISO 9001 Quality · ISO 14001 Environmental · ISO 45001 Safety. 29+ patents.Global Support
Serving 30+ countries. Engineer response within 24 hours for technical inquiries.Engineering answers to the most common pre-purchase questions
Didn't find your question? Ask an engineer directly.
Ask an EngineerDive deeper into the technical topics on this page — expert articles from the PAPTEX Knowledge Center
Explore other dryer fabric solutions for the same product — by grade, brand, speed, industry, or common problem
Send us your pulp dryer parameters (brand, model, width, daily production, pulp type, cooking process). Our application engineer responds within 24 hours with a pulp-dryer-specific fabric specification, CFM calculation, and competitive quotation.