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42,500 m2 - the biggest production bases of self drilling anchor systems in Asia fully owned by SupAnchor. Western plant: established in 1994, total land , 1 hour from Chengdu International Airport Eastern plant: established in 2009, total land, 1.5 hours from Shanghai Port.

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SupFRP

Due to its cuttability SupFRP® Self Drilling Rock Bolt is an economical alternative and also offers enormous advantages for modern rapid heating methods in tunneling. Furthermore the cuttability protects the machinery and avoids obstructions while drifting or enlarging tunnels.

GFRP Plate
GFRP Nut
GFRP Nut
GFRP Reinforcement Rebars
GFRP Tie Rods
GFRP Solid Bolt
GFRP Hollow Bolt
Hollow Injection Bolt Solid Bolt Rebars Mesh Tie Rods Dowel Bar SDA Bolt GFRP Friction Bolt
Sizes & Specifications
H25/220
H28/320
H32/360
H38/490
H22/230
H25/300
Sizes & Specifications
S18/150
S20/200
S22/250
S24/300
S25/350
S27/400
S30/490
S32/560
Sizes & Specifications
ReB-8
ReB-10
ReB-12
ReB-14
ReB-16
ReB-18
ReB-20
ReB-22
ReB-25
ReB-28
ReB-30
ReB-32
ReB-36
ReB-40
Sizes & Specifications
M4
M6
M8
Sizes & Specifications
T15/130
T20/250
Sizes & Specifications
DB16
DB20
DB25
DB32
DB38
DB45
Sizes & Specifications
H25S
H28S
H32S
H38S
Sizes & Specifications
Steel VS GFRP
FB-48
Basic Information

The SupFRP® GFRP Hollow Bolt is developed with high tensile load and pressure resistance. 

It combines rock bolt with injection function. The GFRP Hollow Bolt can be widely applied in geotechnical engineering projects. After injection work, the bolt can remain in the borehole and bear load with plate and nut at the end. 

It has very good bonding force with all grouting materials. Due to high injection pressure, it can realize full grouting and improve project quality.

Main Advantages
  • * High pressure resistance
  • * Easy handling due to low weight
  • * High tensile load
  • * Cuttability
  • * High corrosion resistance
  • * Good bond force

MAIN APPLICATIONS:

slope stabilization, TBM face support, forepoling, confined ground conditions, stabilization of soft rock, permanent application

Images
TECHNICAL DATA OF : H25/220
Outside Diameter (mm)*1
25
Internal Diameter (mm)
12
Nominal Cross sectional area (mm2)*2
250
Guaranteed tensile load (kN)
220
Tensile E-Modulus (GPa)
45
Pressure resistance (MPa)
5
Ultimate Strain
2.0%
Weight(kg/m)
0.64
Thread (Left /Right hand)
Left or Right
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : H28/320
Outside Diameter (mm)*1
28
Internal Diameter (mm)
12
Nominal Cross sectional area (mm2)*2
350
Guaranteed tensile load (kN)
320
Tensile E-Modulus (GPa)
45
Pressure resistance (MPa)
5
Ultimate Strain
2.0%
Weight(kg/m)
0.88
Thread (Left /Right hand)
Left or Right
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : H32/360
Outside Diameter (mm)*1
32
Internal Diameter (mm)
15
Nominal Cross sectional area (mm2)*2
400
Guaranteed tensile load (kN)
360
Tensile E-Modulus (GPa)
45
Pressure resistance (MPa)
5
Ultimate Strain
2.0%
Weight(kg/m)
1.20
Thread (Left /Right hand)
Left or Right
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : H38/490
Outside Diameter (mm)*1
38
Internal Diameter (mm)
20
Nominal Cross sectional area (mm2)*2
540
Guaranteed tensile load (kN)
490
Tensile E-Modulus (GPa)
45
Pressure resistance (MPa)
5
Ultimate Strain
2.0%
Weight(kg/m)
1.5
Thread (Left /Right hand)
Left or Right
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : H22/230
Outside Diameter (mm)*1
22
Internal Diameter (mm)
8
Nominal Cross sectional area (mm2)*2
230
Guaranteed tensile load (kN)
230
Tensile E-Modulus (GPa)
45
Pressure resistance (MPa)
18
Ultimate Strain
2.0%
Weight(kg/m)
0.58
Thread (Left /Right hand)
Left or Right
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : H25/300
Outside Diameter (mm)*1
25
Internal Diameter (mm)
8
Nominal Cross sectional area (mm2)*2
300
Guaranteed tensile load (kN)
300
Tensile E-Modulus (GPa)
45
Pressure resistance (MPa)
30
Ultimate Strain
2.0%
Weight(kg/m)
0.79
Thread (Left /Right hand)
Left or Right
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
Basic Information

The SupFRP® GFRP Solid Bolt is used in Mining, Tunneling and Civil Engineering widely.

It provides more possibilities as an alternative to metal. The GFRP Solid Bolt is manufactured with high quality GFRP material (Glassfiber Reinforced Polymer).

The GFRP Solid Bolt have a high tensile load and bearing capacity with accessories, but the weight is only one quarter of metal product.

The GFRP Solid Bolt can be cut freely due to all-threaded profiles at job site.

Main Advantages
  • * High pressure resistance
  • * 100+ years service life
  • * Easy handling due to low weight
  • * High tensile load
  • * Cuttability
  • * High torsion resistance
  • * Anti-static(optionally)

MAIN APPLICATIONS:

mining support, face bolting, soil nail, slope stabilization, permanent application, temporary support

Images
TECHNICAL DATA OF : S18/150
Outside Diameter (mm)*1
18
Nominal Cross sectional area (mm2)*2
150
Guaranteed tensile load (kN)
150
Tensile E-Modulus (GPa)
50
Ultimate Strain
2.0%
Weight(kg/m)
0.42
High Tortion Type
Available
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : S20/200
Outside Diameter (mm)*1
20
Nominal Cross sectional area (mm2)*2
200
Guaranteed tensile load (kN)
200
Tensile E-Modulus (GPa)
50
Ultimate Strain
2.0%
Weight(kg/m)
0.56
High Tortion Type
Available
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : S22/250
Outside Diameter (mm)*1
22
Nominal Cross sectional area (mm2)*2
250
Guaranteed tensile load (kN)
250
Tensile E-Modulus (GPa)
50
Ultimate Strain
2.0%
Weight(kg/m)
0.69
High Tortion Type
Available
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : S24/300
Outside Diameter (mm)*1
24
Nominal Cross sectional area (mm2)*2
300
Guaranteed tensile load (kN)
300
Tensile E-Modulus (GPa)
50
Ultimate Strain
2.0%
Weight(kg/m)
0.76
High Tortion Type
Available
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : S25/350
Outside Diameter (mm)*1
25
Nominal Cross sectional area (mm2)*2
350
Guaranteed tensile load (kN)
350
Tensile E-Modulus (GPa)
50
Ultimate Strain
2.0%
Weight(kg/m)
0.90
High Tortion Type
Available
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : S27/400
Outside Diameter (mm)*1
27
Nominal Cross sectional area (mm2)*2
400
Guaranteed tensile load (kN)
400
Tensile E-Modulus (GPa)
50
Ultimate Strain
2.0%
Weight(kg/m)
1.04
High Tortion Type
Available
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : S30/490
Outside Diameter (mm)*1
30
Nominal Cross sectional area (mm2)*2
510
Guaranteed tensile load (kN)
490
Tensile E-Modulus (GPa)
50
Ultimate Strain
2.0%
Weight(kg/m)
1.30
High Tortion Type
Available
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : S32/560
Outside Diameter (mm)*1
32
Nominal Cross sectional area (mm2)*2
580
Guaranteed tensile load (kN)
560
Tensile E-Modulus (GPa)
50
Ultimate Strain
2.0%
Weight(kg/m)
1.45
High Tortion Type
Available
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
Basic Information

GFRP Reinforcement Rebar is developed as a good alternative product for concrete internal reinforcement.

The SupFRP® GFRP Reinforcement Rebar is made of high quality corrosion resistant resin and fiberglass materials. 

The GFRP Reinforcement Rebar can be produced into various shapes in factory.

Main Advantages
  • * High corrosion resistance for permanent application
  • * Excellent bonding with concrete
  • * High tensile strength
  • * Non-conductive
  • * Non-magnetic
  • * Easy cutting-Cost-effective
  • * Wide range of shapes
  • * Easy handling

MAIN APPLICATIONS:

soft-eye excavation, infrastructural buildings, bridge decks, sea walls, port aprons, precast elements, foundations, industrial plants

Images
TECHNICAL DATA OF : ReB-8
Outside Diameter (mm)*1
9
Guaranteed tensile load (kN)
50.3
Nominal Cross sectional area (mm2)*2
50.3
Tensile Strength (Mpa)
1000
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
0.125
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : ReB-10
Outside Diameter (mm)*1
11.5
Guaranteed tensile load (kN)
79
Nominal Cross sectional area (mm2)*2
79
Tensile Strength (Mpa)
1000
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
0.2
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : ReB-12
Outside Diameter (mm)*1
14
Guaranteed tensile load (kN)
113
Nominal Cross sectional area (mm2)*2
113
Tensile Strength (Mpa)
1000
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
0.28
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : ReB-14
Outside Diameter (mm)*1
16
Guaranteed tensile load (kN)
154
Nominal Cross sectional area (mm2)*2
154
Tensile Strength (Mpa)
1000
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
0.38
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : ReB-16
Outside Diameter (mm)*1
18
Guaranteed tensile load (kN)
201
Nominal Cross sectional area (mm2)*2
201
Tensile Strength (Mpa)
1000
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
0.50
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : ReB-18
Outside Diameter (mm)*1
20.5
Guaranteed tensile load (kN)
254
Nominal Cross sectional area (mm2)*2
254
Tensile Strength (Mpa)
1000
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
0.65
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : ReB-20
Outside Diameter (mm)*1
23
Guaranteed tensile load (kN)
314
Nominal Cross sectional area (mm2)*2
314
Tensile Strength (Mpa)
1000
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
0.79
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : ReB-22
Outside Diameter (mm)*1
25
Guaranteed tensile load (kN)
380
Nominal Cross sectional area (mm2)*2
380
Tensile Strength (Mpa)
1000
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
0.97
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : ReB-25
Outside Diameter (mm)*1
28
Guaranteed tensile load (kN)
491
Nominal Cross sectional area (mm2)*2
491
Tensile Strength (Mpa)
1000
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
1.20
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : ReB-28
Outside Diameter (mm)*1
32
Guaranteed tensile load (kN)
555
Nominal Cross sectional area (mm2)*2
616
Tensile Strength (Mpa)
900
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
1.56
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : ReB-30
Outside Diameter (mm)*1
34
Guaranteed tensile load (kN)
636
Nominal Cross sectional area (mm2)*2
706
Tensile Strength (Mpa)
900
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
1.88
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : ReB-32
Outside Diameter (mm)*1
36
Guaranteed tensile load (kN)
720
Nominal Cross sectional area (mm2)*2
800
Tensile Strength (Mpa)
900
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
2.00
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : ReB-36
Outside Diameter (mm)*1
41
Guaranteed tensile load (kN)
867
Nominal Cross sectional area (mm2)*2
1020
Tensile Strength (Mpa)
850
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
2.65
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : ReB-40
Outside Diameter (mm)*1
45
Guaranteed tensile load (kN)
1006
Nominal Cross sectional area (mm2)*2
1257
Tensile Strength (Mpa)
800
Ultimate Strain
2%
Tensile E-Modulus (GPa)
50
Weight(kg/m)
3.10
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
Basic Information

The SupFRP® GFRP Mesh was developed based on standard grid applications, which is assembled by longitudinal and transverse GFRP rods. 

The rods' crossing is fixed by impregnated polymer yarn, so the joints are very strong and reliable. The GFRP Mesh are also very flexible and lightweight. 

The SupFRP® GFRP Mesh are electrically non-conductive and corrosion resistant, so they become good choice to replace metal mesh welded.

Main Advantages
  • * High corrosion resistance
  • * High strength
  • * Non-conductive
  • * Non-magnetic
  • * Lightweight

MAIN APPLICATIONS:

roof and wall protection, repair of concrete structures, flat slab construction, highway overlays

Images
TECHNICAL DATA OF : M4
Rod Diameter (mm)
4
Jointing Load (kN)
2
Grid Size (mm)
100X100,150X1500,*1
Other
*1 Other grid size is available if requested
TECHNICAL DATA OF : M6
Rod Diameter (mm)
6
Jointing Load (kN)
3
Grid Size (mm)
100X100,150X1500,*1
Other
*1 Other grid size is available if requested
TECHNICAL DATA OF : M8
Rod Diameter (mm)
8
Jointing Load (kN)
5
Grid Size (mm)
100X100,150X1500,*1
Other
*1 Other grid size is available if requested
Basic Information

The SupFRP® GFRP Tie Rod is specially developed for formwork application.

Compared with steel tie rod, the GFRP Tie Rod does not need to be removed from the structure when completing the project, so it can significantly reduce the cost for transportation and storage. 

The GFRP Tie Rod is manufactured in accordance with thread profile of standard steel rods, so related standard accessories can be applied here. Its high corrosion resistance, high strength, cuttability and other features offer lots of benefits for all formwork applications.

Main Advantages
  • * High corrosion resistance
  • * Easy handling
  • * Permanent application
  • * Non-conductive
  • * Non-magnetic
  • * Good bond force
  • * High end loading

MAIN APPLICATIONS:

formwork

Images
TECHNICAL DATA OF : T15/130
Outside Diameter (mm)*1
17
Nominal Cross sectional area (mm2)*2
130
Guaranteed tensile load (kN)
130
Tensile E-Modulus (GPa)
45
Ultimate Strain
2.0%
Weight(kg/m)
0.37
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
TECHNICAL DATA OF : T20/250
Outside Diameter (mm)*1
22
Nominal Cross sectional area (mm2)*2
250
Guaranteed tensile load (kN)
250
Tensile E-Modulus (GPa)
45
Ultimate Strain
2.0%
Weight(kg/m)
0.71
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Other
*1 Including Waved Thread Structure; *2 Characteristic Stress Value in core
Basic Information

SupFRP® offers an excellent quality range of GFRP Dowel Bar, which are manufactured from high quality raw materials. 

The GFRP Dowel Bar can also be manufactured as per customers requirements. 

GFRP Dowel Bar are used as a “Load Transfer” device for construction joints in concrete slabs. 

The GFRP Dowel Bar provide a mechanical link between slabs but allow for horizontal movements of the slab itself due to thermal expansion and contraction.

Main Advantages
  • * 100+ years service life
  • * No-rust
  • * High strength
  • * Superior load transfer efficiency
  • * Non-conductive
  • * Non-magnetic

MAIN APPLICATIONS:

jointed rigid pavement, work areas with electromagnetic sensitivities, construction joints, embankments and MSE walls

Images
TECHNICAL DATA OF : DB16
Outside Diameter (mm)
16
Transverse Shear Load (kN)
35
Nominal Cross sectional area (mm2)
200
Coefficient of thermal expansion (x10-6/℃)
9-11
Weight(kg/m)
0.43
TECHNICAL DATA OF : DB20
Outside Diameter (mm)
20
Transverse Shear Load (kN)
55
Nominal Cross sectional area (mm2)
310
Coefficient of thermal expansion (x10-6/℃)
9-11
Weight(kg/m)
0.67
TECHNICAL DATA OF : DB25
Outside Diameter (mm)
25
Transverse Shear Load (kN)
85
Nominal Cross sectional area (mm2)
490
Coefficient of thermal expansion (x10-6/℃)
9-11
Weight(kg/m)
1.05
TECHNICAL DATA OF : DB32
Outside Diameter (mm)
32
Transverse Shear Load (kN)
130
Nominal Cross sectional area (mm2)
800
Coefficient of thermal expansion (x10-6/℃)
9-11
Weight(kg/m)
1.71
TECHNICAL DATA OF : DB38
Outside Diameter (mm)
38
Transverse Shear Load (kN)
180
Nominal Cross sectional area (mm2)
1130
Coefficient of thermal expansion (x10-6/℃)
9-11
Weight(kg/m)
2.41
TECHNICAL DATA OF : DB45
Outside Diameter (mm)
45
Transverse Shear Load (kN)
255
Nominal Cross sectional area (mm2)
1590
Coefficient of thermal expansion (x10-6/℃)
9-11
Weight(kg/m)
3.37
Basic Information

The SupFRP® GFRP SDA Bolt can realize fast drilling and installation due to its unique function which integrates drilling, grouting and anchoring as a whole!

The central hole allows flushing with water during drilling and the execution of anchor grouting.  

The GFRP SDA Bolt can be used in soft rock or clay soil, for the reinforcement of the face of the tunnel or for slope stabilization. 

Furthermore the cuttability protects the machinery by avoiding obstructions while drifting or enlarging tunnels. 

Main Advantages
  • * Permanent application
  • * Super high torque resistance
  • * High end loading
  • * Easy handling
  • * R25/R28/R32/R38
  • * ISO standard thread profile

MAIN APPLICATIONS:

face stabilization, forepoling, slope stabilization, ground support in soft rock, roof and wall bolting

Images
TECHNICAL DATA OF : H25S
Outside Diameter (mm)*1
25
Internal Diameter (mm)
12
Nominal Cross sectional area (mm2)*2
250
Guaranteed tensile load (kN)
220
Tensile E-Modulus (GPa)
45
Torsion Strength (Nm)
180
Ultimate Strain
2.0%
Weight (kg/m)
0.63
Thread type(ISO)
R25
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
TECHNICAL DATA OF : H28S
Outside Diameter (mm)*1
28
Internal Diameter (mm)
14
Nominal Cross sectional area (mm2)*2
310
Guaranteed tensile load (kN)
280
Tensile E-Modulus (GPa)
45
Torsion Strength (Nm)
250
Ultimate Strain
2.0%
Weight (kg/m)
0.86
Thread type(ISO)
R28
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
TECHNICAL DATA OF : H32S
Outside Diameter (mm)*1
32
Internal Diameter (mm)
15
Nominal Cross sectional area (mm2)*2
400
Guaranteed tensile load (kN)
365
Tensile E-Modulus (GPa)
45
Torsion Strength (Nm)
360
Ultimate Strain
2.0%
Weight (kg/m)
0.99
Thread type(ISO)
R32
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
TECHNICAL DATA OF : H38S
Outside Diameter (mm)*1
38
Internal Diameter (mm)
20
Nominal Cross sectional area (mm2)*2
540
Guaranteed tensile load (kN)
490
Tensile E-Modulus (GPa)
45
Torsion Strength (Nm)
450
Ultimate Strain
2.0%
Weight (kg/m)
1.33
Thread type(ISO)
R38
Length (m)
(1) x 2, x3, x4, x5, x6, x7, x8, x9, x10, x11
Basic Information

As one of the main supporting forms of underground engineering and rock slope, the friction bolt plays an important role in the maintenance of the stability of civil engineering.

At present, most of the friction bolts on the market are made of steel, but with the rapid development of construction technology and new materials, innovative products have also emerged, and the SupFRP GFRP Friction Bolt System has emerged as the times require.

Main Advantages
  • * Corrosion resistance - no rust, long support life, especially suitable for corrosive environments
  • * Safety - no friction sparks (safety of sparks during installation);
  • * Excellent insulation
  • * Light weight - the density is one quarter of that of steel, easy to operate, high installation efficiency and lower transportation costs
  • * Easy to cut - it is easy to cut and crush, it can be directly mixed in the ore during mining and crushing without damaging the cutting machine and crusher, and without damaging the conveying equipment
  • * Low density - it could be easily separated from the ore during beneficiation
Images
TECHNICAL DATA OF : Steel VS GFRP
Comparison of Properties
Steel Friction Bolt VS GFRP Friction Bolt
Corrosion resistance
Low VS High
Density g/cm3
7.8 VS 2.0
Coefficient of heat conductivity at 20℃(w/m)
64 VS 0.75
Electroconductibility
YES VS NO
Tensile elongation GPa
200 VS 55
Tensile strength N/mm2
390 VS 1000
Working temperature
< 1000 ℃ VS -50 ℃ - 100 ℃
TECHNICAL DATA OF : FB-48
Outside Diameter (mm)
50
Bolt Ultimate load (kN)
350
End Load (kN)
70
Weight (kg/m)
1.7
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