Normal Fiber
Advantages
Low density
High tensile strength
Good resistance to acids, alkaline and solvents
Low production cost compared to other thermoplastics
Application
Carpet and flooring products
Air filter
Back layer of carped and rugs
Gunny yarns and ropes
Specifications | |
stability | 3/5–3 (g/den) |
weight | 0/91 (g/cm3) |
application | leaf normal |
compression | 0 (%) |
elongation | 180 – 100 (%) |
primary raw material | 100% polypropylene |
type of completion | hydrophilic |
melting point | 170 – 160 (°C) |
soft ening point | 150 – 140 (°C) |
score | 22–4 (dTex) |
finish with spinning oil | 0/7 –0/5 (%) |
number of curls and waves | 4–3 (crimp/cm) |
cut length | 90 – 75– 60– 50 (mm) |
static electric charge | 1/5 – 1/2 (KV/m) |
Flack Fiber
Advantages
Resistant to abrasion acid degradation
Application
Acidic batteries
Thin concrete layer
Specifications | |
stability | 4– 3/5 (g/den) |
weight | 0/91 (g/cm3) |
application | broken leaf |
elongation | 90–70 (%) |
primary raw material | 100% polypropylene |
type of completion | Hydrophilic |
melting point | 170 – 160 (°C) |
soft ening point | 150 – 140 (°C) |
score | 4 – 3 (dTex) |
finish with spinning oil | 0/6 (%) |
number of curls and waves | 0 (crimp/cm) |
cut length | 3 (mm) |
static electric charge | 1/5 – 1/2 (KV/m) |
immersion time | 3 |
diameter | 25 – 22 (μ) |
concrete fiber
Advantages
Crack reduction and prevention of crack propagation in concrete
Preventing components deposition and weight increasing of the concrete
Elimination of the concrete properties such as flexural strength, tensile, shear and
abrasion resistance
Reduction of materials penetration
Application
Concrete and mixtures of cement and plaster
Specifications | |
stability | 3/5– 2/5 (g/den) |
weight | 0/91 (g/cm3) |
application | Cement leaf |
elongation | 100 – 80 (%) |
primary raw material | 100% polypropylene |
type of completion | hydrophilic |
melting point | 170 – 160 (°C) |
soft ening point | 150 – 140 (°C) |
score | 2/2 (dTex) |
finish with spinning oil | 1– 0/6 (%) |
number of curls and waves | 0 (crimp/cm) |
cut length | 18– 12 – 6 (mm) |
static electric charge | 1/5 – 1/2 (KV/m) |
immersion time | 5 –3 |
diameter | 19- 17 (μ) |
Geotextile fibers
Advantages
High tensile strength
Light weight
Flexibility
Simple installation easy transportation
Highly durable insulation
Low cost and long Lifetime
Application
Separating layer Of the road
Road pavement
Railways substructure
Dams
Geo membrane
Erosion controlling
Protective walls
Specifications | |
stability | 3/5–3 (g/den) |
weight | 0/91 |
application | Geotextile leaf |
compression | 0 (%) |
elongation | 120–80 (%) |
primary raw material | 100% polypropylene |
type of completion | hydrophilic |
melting point | 170 – 160 (°C) |
soft ening point | 150 – 140 (°C) |
score | 8–4 (dTex) |
finish with spinning oil | 0/8 – 0/5 (%) |
number of curls and waves | 6 – 5 (crimp/cm) |
cut length | 75– 60 – 50 (mm) |
static electric charge | 1/5 – 1/2 (KV/m) |
Hygienic Fiber
Advantages
Possession of neutral nature in the body s living tissues
High gas permeability and fluid impermeability
Moisture impenetrability
Application
Clothing and footwear
Hospital cloths
All kinds of bags
Layer on diapers
Surgical clothes
Disposable clothing for isolated and intensive care units to prevent the infection spread
Specifications | |
stability | 2/6–2 (g/den) |
weight | 91/0 (g/cm3) |
application | Hygienic leaf |
compression | 0 (%) |
elongation | 400–350 (%) |
primary raw material | 100% polypropylene |
type of completion | hydrophilic |
melting point | 170 – 160 (°C) |
soft ening point | 150 – 140 (°C) |
specific resistance | (Ω.gr.cm-2) 10 to the power of 8 |
score | 2/2 (dTex) |
finish with spinning oil | 0/8 – 0/5 (%) |
number of curls and waves | 13 – 8 (crimp/cm) |
cut length | 40 (mm) |
static electric charge | 1/5 – 1/2 (KV/m) |
immersion time | 5– 3 |