The fiber volume of the glass fiber round rod, produced in the pultrusion process, is over 60%. The fiber orientation is in the longitudinal direction and is therefore unidirectional.

The fiber volume of the glass fiber round rod, produced in the pultrusion process, is over 60%. The fiber orientation is in the longitudinal direction and is therefore unidirectional.

The fiber volume of the glass fiber round rod, produced in the pultrusion process, is over 60%. The fiber orientation is in the longitudinal direction and is therefore unidirectional.

The fiber volume of the glass fiber round rod, produced in the pultrusion process, is over 60%. The fiber orientation is in the longitudinal direction and is therefore unidirectional.

The fiber volume of the glass fiber round rod, produced in the pultrusion process, is over 60%. The fiber orientation is in the longitudinal direction and is therefore unidirectional.

The fiber volume of the glass fiber round rod, produced in the pultrusion process, is over 60%. The fiber orientation is in the longitudinal direction and is therefore unidirectional.

The fiber volume of the glass fiber round rod, produced in the pultrusion process, is over 60%. The fiber orientation is in the longitudinal direction and is therefore unidirectional.

The fiber volume of the glass fiber round rod, produced in the pultrusion process, is over 60%. The fiber orientation is in the longitudinal direction and is therefore unidirectional.

The fiber volume of the glass fiber round rod, produced in the pultrusion process, is over 60%. The fiber orientation is in the longitudinal direction and is therefore unidirectional.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Pultruded glass fiber tubes – manufactured using the pultrusion process, have an unidirectional fiber orientation in the longitudinal direction. Both E-Glass and S-Glass fibers with a fiber volume of approx. 65% are used.In the case of larger diameters, additional fibers are braided as core or cover layers using the pull-winding process. This also improves pressure stability and torsional rigidity.

Our Carbon Power Tubes - for extreme challenges and maximum resilience!We developed the Power Tubes series for particularly demanding applications when extreme forces have to be transmitted and maximum precision is still required. The Power Tubes are our strongest tubes, manufactured to our precision tube standard. Due to their precision cut, these tubes fit together perfectly and can therefore be optimally extended. The Power Tube system thus offers the perfect balance between maximum power transmission and low weight - without compromise.The tubes have a particularly attractive carbon design finish in order to meet the highest visual demands. Both the inner layers and the outer layers are made of twill carbon fabric. High-strength carbon fibers are used as core layers in the longitudinal direction in order to achieve maximum flexural strength.With the precisely matched diameters, the Power Tube series is the ideal complement to the Telescopic Tube series. Due to their identical surface finish with the same design, these tubes can also be perfectly combined visually.Carbon Power Tubes – uncompromisingly powerful. There are 3 different surfaces to choose from:• Winding surface (grip surface with good haptics - raw, unprocessed)• Ground (precision surface ground, smooth, matt)• Painted (high gloss coating, these tubes are also ground to precision)More information on the individual surfaces can be found in the “Info about tubes” areaMore information and explanations about carbon in general can be found in the "Carbon Basics" section.

Our Carbon Power Tubes - for extreme challenges and maximum resilience!We developed the Power Tubes series for particularly demanding applications when extreme forces have to be transmitted and maximum precision is still required. The Power Tubes are our strongest tubes, manufactured to our precision tube standard. Due to their precision cut, these tubes fit together perfectly and can therefore be optimally extended. The Power Tube system thus offers the perfect balance between maximum power transmission and low weight - without compromise.The tubes have a particularly attractive carbon design finish in order to meet the highest visual demands. Both the inner layers and the outer layers are made of twill carbon fabric. High-strength carbon fibers are used as core layers in the longitudinal direction in order to achieve maximum flexural strength.With the precisely matched diameters, the Power Tube series is the ideal complement to the Telescopic Tube series. Due to their identical surface finish with the same design, these tubes can also be perfectly combined visually.Carbon Power Tubes – uncompromisingly powerful. There are 3 different surfaces to choose from:• Winding surface (grip surface with good haptics - raw, unprocessed)• Ground (precision surface ground, smooth, matt)• Painted (high gloss coating, these tubes are also ground to precision)More information on the individual surfaces can be found in the “Info about tubes” areaMore information and explanations about carbon in general can be found in the "Carbon Basics" section.

Our Carbon Power Tubes - for extreme challenges and maximum resilience!We developed the Power Tubes series for particularly demanding applications when extreme forces have to be transmitted and maximum precision is still required. The Power Tubes are our strongest tubes, manufactured to our precision tube standard. Due to their precision cut, these tubes fit together perfectly and can therefore be optimally extended. The Power Tube system thus offers the perfect balance between maximum power transmission and low weight - without compromise.The tubes have a particularly attractive carbon design finish in order to meet the highest visual demands. Both the inner layers and the outer layers are made of twill carbon fabric. High-strength carbon fibers are used as core layers in the longitudinal direction in order to achieve maximum flexural strength.With the precisely matched diameters, the Power Tube series is the ideal complement to the Telescopic Tube series. Due to their identical surface finish with the same design, these tubes can also be perfectly combined visually.Carbon Power Tubes – uncompromisingly powerful. There are 3 different surfaces to choose from:• Winding surface (grip surface with good haptics - raw, unprocessed)• Ground (precision surface ground, smooth, matt)• Painted (high gloss coating, these tubes are also ground to precision)More information on the individual surfaces can be found in the “Info about tubes” areaMore information and explanations about carbon in general can be found in the "Carbon Basics" section.

Our Carbon Power Tubes - for extreme challenges and maximum resilience!We developed the Power Tubes series for particularly demanding applications when extreme forces have to be transmitted and maximum precision is still required. The Power Tubes are our strongest tubes, manufactured to our precision tube standard. Due to their precision cut, these tubes fit together perfectly and can therefore be optimally extended. The Power Tube system thus offers the perfect balance between maximum power transmission and low weight - without compromise.The tubes have a particularly attractive carbon design finish in order to meet the highest visual demands. Both the inner layers and the outer layers are made of twill carbon fabric. High-strength carbon fibers are used as core layers in the longitudinal direction in order to achieve maximum flexural strength.With the precisely matched diameters, the Power Tube series is the ideal complement to the Telescopic Tube series. Due to their identical surface finish with the same design, these tubes can also be perfectly combined visually.Carbon Power Tubes – uncompromisingly powerful. There are 3 different surfaces to choose from:• Winding surface (grip surface with good haptics - raw, unprocessed)• Ground (precision surface ground, smooth, matt)• Painted (high gloss coating, these tubes are also ground to precision)More information on the individual surfaces can be found in the “Info about tubes” areaMore information and explanations about carbon in general can be found in the "Carbon Basics" section.

Our Carbon Power Tubes - for extreme challenges and maximum resilience!We developed the Power Tubes series for particularly demanding applications when extreme forces have to be transmitted and maximum precision is still required. The Power Tubes are our strongest tubes, manufactured to our precision tube standard. Due to their precision cut, these tubes fit together perfectly and can therefore be optimally extended. The Power Tube system thus offers the perfect balance between maximum power transmission and low weight - without compromise.The tubes have a particularly attractive carbon design finish in order to meet the highest visual demands. Both the inner layers and the outer layers are made of twill carbon fabric. High-strength carbon fibers are used as core layers in the longitudinal direction in order to achieve maximum flexural strength.With the precisely matched diameters, the Power Tube series is the ideal complement to the Telescopic Tube series. Due to their identical surface finish with the same design, these tubes can also be perfectly combined visually.Carbon Power Tubes – uncompromisingly powerful. There are 3 different surfaces to choose from:• Winding surface (grip surface with good haptics - raw, unprocessed)• Ground (precision surface ground, smooth, matt)• Painted (high gloss coating, these tubes are also ground to precision)More information on the individual surfaces can be found in the “Info about tubes” areaMore information and explanations about carbon in general can be found in the "Carbon Basics" section.

Our Carbon Power Tubes - for extreme challenges and maximum resilience!We developed the Power Tubes series for particularly demanding applications when extreme forces have to be transmitted and maximum precision is still required. The Power Tubes are our strongest tubes, manufactured to our precision tube standard. Due to their precision cut, these tubes fit together perfectly and can therefore be optimally extended. The Power Tube system thus offers the perfect balance between maximum power transmission and low weight - without compromise.The tubes have a particularly attractive carbon design finish in order to meet the highest visual demands. Both the inner layers and the outer layers are made of twill carbon fabric. High-strength carbon fibers are used as core layers in the longitudinal direction in order to achieve maximum flexural strength.With the precisely matched diameters, the Power Tube series is the ideal complement to the Telescopic Tube series. Due to their identical surface finish with the same design, these tubes can also be perfectly combined visually.Carbon Power Tubes – uncompromisingly powerful. There are 3 different surfaces to choose from:• Winding surface (grip surface with good haptics - raw, unprocessed)• Ground (precision surface ground, smooth, matt)• Painted (high gloss coating, these tubes are also ground to precision)More information on the individual surfaces can be found in the “Info about tubes” areaMore information and explanations about carbon in general can be found in the "Carbon Basics" section.

Our Carbon Power Tubes - for extreme challenges and maximum resilience!We developed the Power Tubes series for particularly demanding applications when extreme forces have to be transmitted and maximum precision is still required. The Power Tubes are our strongest tubes, manufactured to our precision tube standard. Due to their precision cut, these tubes fit together perfectly and can therefore be optimally extended. The Power Tube system thus offers the perfect balance between maximum power transmission and low weight - without compromise.The tubes have a particularly attractive carbon design finish in order to meet the highest visual demands. Both the inner layers and the outer layers are made of twill carbon fabric. High-strength carbon fibers are used as core layers in the longitudinal direction in order to achieve maximum flexural strength.With the precisely matched diameters, the Power Tube series is the ideal complement to the Telescopic Tube series. Due to their identical surface finish with the same design, these tubes can also be perfectly combined visually.Carbon Power Tubes – uncompromisingly powerful. There are 3 different surfaces to choose from:• Winding surface (grip surface with good haptics - raw, unprocessed)• Ground (precision surface ground, smooth, matt)• Painted (high gloss coating, these tubes are also ground to precision)More information on the individual surfaces can be found in the “Info about tubes” areaMore information and explanations about carbon in general can be found in the "Carbon Basics" section.