Aerosmith 1" x .100 Wire Collated, Helical shank, Gypsum to Steel Pin, 2324A, 2400 Per Box |  | 2324AAerosmith Fastening Systems56 x 75 inchesPrice: $150.00 | Much faster than screws
Shortens job time and increases profits
Gripshank Pins grip and hold securly
Applications Include: DensGlass® to Steel, Light Gauge Steel to Steel,
Hardie Siding, OSB, & Plywood to Steel |
|   | Buy Aerosmith 1" x .100 Wire Collated, Helical shank, Gypsum to Steel Pin, 2324A, 2400 Per Box from Amazon
More Info... | | Wire Collated VersaPin Coil Pins-ST4100 Tool Only, 1 ¼ x .100 Wire Collated, Helical shank, Gypsum to Steel Pin; 2.4M Carton Pin fastening has been commonplace in commercial construction for over 50 years. However, many people still have a hard time understanding how a pin can fasten to steel as securely as a conventional screw fastener. The keys to the performance of the technology are the design of the pin and the driving system. Pins are made of special grades of steel that are hardened with a unique heat treating process making them ductile and extremely strong. When driven into steel with the proper pneumatic tool, their ballistic shape point uniformly pierces the steel instead of drilling it out or tearing it like a common nail. The displaced steel rebounds around the pin to create a strong compressive force on the shank of the fastener. This force, working in conjunction with a specific pin knurling pattern designed for the steel being joined, creates a high friction force that prohibits withdrawal of the fastener from the steel. Each pin is designed for a specific range of applications, matching unique characteristics and performance capabilities to the materials being fastened. When the proper pins are used in the application they were designed for, their holding strength and durability often surpasses that of screws. Organizations such as the Light Guage Steel Engineers Association (LGSEA) and the Steel Framing Alliance (SFA) support the use of Pins as a reliable fastening technology. |
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| Aerosmith 1 ¾ x .144 Helical Shank Pin, 5454P 3200 Per Box |  | 5454PAerosmith Fastening Systems32 x 75 inchesPrice: $332.80 | |
| | Buy Aerosmith 1 ¾ x .144 Helical Shank Pin, 5454P 3200 Per Box from Amazon
More Info... | | Plastic Collated Strip Pins-CT90 Tools, 1 ¾ x .144 Helical Shank Pin; 3200 ctn. Pin fastening has been commonplace in commercial construction for over 50 years. However, many people still have a hard time understanding how a pin can fasten to steel as securely as a conventional screw fastener. The keys to the performance of the technology are the design of the pin and the driving system. Pins are made of special grades of steel that are hardened with a unique heat treating process making them ductile and extremely strong. When driven into steel with the proper pneumatic tool, their ballistic shape point uniformly pierces the steel instead of drilling it out or tearing it like a common nail. The displaced steel rebounds around the pin to create a strong compressive force on the shank of the fastener. This force, working in conjunction with a specific pin knurling pattern designed for the steel being joined, creates a high friction force that prohibits withdrawal of the fastener from the steel. Each pin is designed for a specific range of applications, matching unique characteristics and performance capabilities to the materials being fastened. When the proper pins are used in the application they were designed for, their holding strength and durability often surpasses that of screws. Organizations such as the Light Guage Steel Engineers Association (LGSEA) and the Steel Framing Alliance (SFA) support the use of Pins as a reliable fastening technology. |
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| Aerosmith 1 ¾ x .144 Smooth Shank Pin, 5453P, 1000 Per Box | | 5453PAerosmith Fastening Systems32 x 75 inchesPrice: $152.00 | |
| | Buy Aerosmith 1 ¾ x .144 Smooth Shank Pin, 5453P, 1000 Per Box from Amazon
More Info... | | Plastic Collated Strip Pins-CT90 Tools, 1 ¾ x .144 Smooth Shank Pin; 1000 ctn.. Pin fastening has been commonplace in commercial construction for over 50 years. However, many people still have a hard time understanding how a pin can fasten to steel as securely as a conventional screw fastener. The keys to the performance of the technology are the design of the pin and the driving system. Pins are made of special grades of steel that are hardened with a unique heat treating process making them ductile and extremely strong. When driven into steel with the proper pneumatic tool, their ballistic shape point uniformly pierces the steel instead of drilling it out or tearing it like a common nail. The displaced steel rebounds around the pin to create a strong compressive force on the shank of the fastener. This force, working in conjunction with a specific pin knurling pattern designed for the steel being joined, creates a high friction force that prohibits withdrawal of the fastener from the steel. Each pin is designed for a specific range of applications, matching unique characteristics and performance capabilities to the materials being fastened. When the proper pins are used in the application they were designed for, their holding strength and durability often surpasses that of screws. Organizations such as the Light Guage Steel Engineers Association (LGSEA) and the Steel Framing Alliance (SFA) support the use of Pins as a reliable fastening technology. |
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| Aerosmith 2 x .100 Wire Collated; GripShank; Wood to Steel Pin 2502S 3000 Per Box | | 2502SAerosmith Fastening Systems56 x 75 inchesPrice: $210.00 | Applications: Plywood, OSB, Hardie Siding, etc., to Light Gauge Steel
Designed to Fit: Bostitch, Hitachi, Max, Paslode, Senco, Atro, ET&F Coil Nailers |
| | Buy Aerosmith 2 x .100 Wire Collated; GripShank; Wood to Steel Pin 2502S 3000 Per Box from Amazon
More Info... | | GripShank Pins For 16-22 Gauge Steel; 2 x .100 Wire Collated; GripShank; Wood to Steel Pin; 3000 ctn.. Pin fastening has been commonplace in commercial construction for over 50 years. However, many people still have a hard time understanding how a pin can fasten to steel as securely as a conventional screw fastener. The keys to the performance of the technology are the design of the pin and the driving system. Pins are made of special grades of steel that are hardened with a unique heat treating process making them ductile and extremely strong. When driven into steel with the proper pneumatic tool, their ballistic shape point uniformly pierces the steel instead of drilling it out or tearing it like a common nail. The displaced steel rebounds around the pin to create a strong compressive force on the shank of the fastener. This force, working in conjunction with a specific pin knurling pattern designed for the steel being joined, creates a high friction force that prohibits withdrawal of the fastener from the steel. Each pin is designed for a specific range of applications, matching unique characteristics and performance capabilities to the materials being fastened. When the proper pins are used in the application they were designed for, their holding strength and durability often surpasses that of screws. Organizations such as the Light Guage Steel Engineers Association (LGSEA) and the Steel Framing Alliance (SFA) support the use of Pins as a reliable fastening technology. |
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| Aerosmith 2 x .100 Wire Collated, Helical Shank, Wood to Steel Pin, 2501S, 3000 Per Box | | 2501SAerosmith Fastening Systems56 x 75 inchesPrice: $210.00 | Applications: Plywood, OSB, Hardie Siding, etc., to Light Gauge Steel
Designed to Fit: Bostitch, Hitachi, Max, Paslode, Senco, Atro, ET&F Coil Nailers |
| | Buy Aerosmith 2 x .100 Wire Collated, Helical Shank, Wood to Steel Pin, 2501S, 3000 Per Box from Amazon
More Info... | | Helical-Shank Pins For 12-16 Gauge Steel; 2 x .100 Wire Collated; Helical Shank; Wood to Steel Pin; 3000 ctn.. Pin fastening has been commonplace in commercial construction for over 50 years. However, many people still have a hard time understanding how a pin can fasten to steel as securely as a conventional screw fastener. The keys to the performance of the technology are the design of the pin and the driving system. Pins are made of special grades of steel that are hardened with a unique heat treating process making them ductile and extremely strong. When driven into steel with the proper pneumatic tool, their ballistic shape point uniformly pierces the steel instead of drilling it out or tearing it like a common nail. The displaced steel rebounds around the pin to create a strong compressive force on the shank of the fastener. This force, working in conjunction with a specific pin knurling pattern designed for the steel being joined, creates a high friction force that prohibits withdrawal of the fastener from the steel. Each pin is designed for a specific range of applications, matching unique characteristics and performance capabilities to the materials being fastened. When the proper pins are used in the application they were designed for, their holding strength and durability often surpasses that of screws. Organizations such as the Light Guage Steel Engineers Association (LGSEA) and the Steel Framing Alliance (SFA) support the use of Pins as a reliable fastening technology. |
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| Aerosmith 2 x .144 Helical Shank Pin, 5504P, 3200 Per Box | | 5504PAerosmith Fastening Systems32 x 75 inchesPrice: $563.90 | |
| | Buy Aerosmith 2 x .144 Helical Shank Pin, 5504P, 3200 Per Box from Amazon
More Info... | | Plastic Collated Strip Pins-CT90 Tools, 2 x .144 Helical Shank Pin; 3200 ctn. Pin fastening has been commonplace in commercial construction for over 50 years. However, many people still have a hard time understanding how a pin can fasten to steel as securely as a conventional screw fastener. The keys to the performance of the technology are the design of the pin and the driving system. Pins are made of special grades of steel that are hardened with a unique heat treating process making them ductile and extremely strong. When driven into steel with the proper pneumatic tool, their ballistic shape point uniformly pierces the steel instead of drilling it out or tearing it like a common nail. The displaced steel rebounds around the pin to create a strong compressive force on the shank of the fastener. This force, working in conjunction with a specific pin knurling pattern designed for the steel being joined, creates a high friction force that prohibits withdrawal of the fastener from the steel. Each pin is designed for a specific range of applications, matching unique characteristics and performance capabilities to the materials being fastened. When the proper pins are used in the application they were designed for, their holding strength and durability often surpasses that of screws. Organizations such as the Light Guage Steel Engineers Association (LGSEA) and the Steel Framing Alliance (SFA) support the use of Pins as a reliable fastening technology. |
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| Aerosmith 1-1/2 x .145 Smooth wood to concrete pin 5383HP, 1500 Per Box | | 5383HPAerosmith Fastening Systems56 x 75 inchesPrice: $144.00 | |
| | Buy Aerosmith 1-1/2 x .145 Smooth wood to concrete pin 5383HP, 1500 Per Box from Amazon
More Info... | | Aerosmith High Pressure Pins for Max HN120 400 PSI Tool, 1 ½ x .145 Smooth wood to concrete pin; 1M Box. Pin fastening has been commonplace in commercial construction for over 50 years. However, many people still have a hard time understanding how a pin can fasten to steel as securely as a conventional screw fastener. The keys to the performance of the technology are the design of the pin and the driving system. Pins are made of special grades of steel that are hardened with a unique heat treating process making them ductile and extremely strong. When driven into steel with the proper pneumatic tool, their ballistic shape point uniformly pierces the steel instead of drilling it out or tearing it like a common nail. The displaced steel rebounds around the pin to create a strong compressive force on the shank of the fastener. This force, working in conjunction with a specific pin knurling pattern designed for the steel being joined, creates a high friction force that prohibits withdrawal of the fastener from the steel. Each pin is designed for a specific range of applications, matching unique characteristics and performance capabilities to the materials being fastened. When the proper pins are used in the application they were designed for, their holding strength and durability often surpasses that of screws. Organizations such as the Light Guage Steel Engineers Association (LGSEA) and the Steel Framing Alliance (SFA) support the use of Pins as a reliable fastening technology. |
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| Aerosmith 1-1/4 x .100 Wire Collated, Gripshank, Gypsum to Steel Pin, 2325A, 2400 Per Box | | 2325AAerosmith Fastening Systems56 x 75 inchesPrice: $145.00 | Much faster than screws
Shortens job time and increases profits
Gripshank Pins grip and hold securly
Applications Include: DensGlass® to Steel, Light Gauge Steel to Steel,
Hardie Siding, OSB, & Plywood to Steel |
| | Buy Aerosmith 1-1/4 x .100 Wire Collated, Gripshank, Gypsum to Steel Pin, 2325A, 2400 Per Box from Amazon
More Info... | | Wire Collated VersaPin Coil Pins-ST4100 Tool Only, 1 ¼ x .100 Wire Collated, Gripshank, Gypsum to Steel Pin; 2.4M Carton Pin fastening has been commonplace in commercial construction for over 50 years. However, many people still have a hard time understanding how a pin can fasten to steel as securely as a conventional screw fastener. The keys to the performance of the technology are the design of the pin and the driving system. Pins are made of special grades of steel that are hardened with a unique heat treating process making them ductile and extremely strong. When driven into steel with the proper pneumatic tool, their ballistic shape point uniformly pierces the steel instead of drilling it out or tearing it like a common nail. The displaced steel rebounds around the pin to create a strong compressive force on the shank of the fastener. This force, working in conjunction with a specific pin knurling pattern designed for the steel being joined, creates a high friction force that prohibits withdrawal of the fastener from the steel. Each pin is designed for a specific range of applications, matching unique characteristics and performance capabilities to the materials being fastened. When the proper pins are used in the application they were designed for, their holding strength and durability often surpasses that of screws. Organizations such as the Light Guage Steel Engineers Association (LGSEA) and the Steel Framing Alliance (SFA) support the use of Pins as a reliable fastening technology. |
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| Aerosmith 2 x .144 Smooth Shank Pin 5503P 1000 Per Box | | 5503PAerosmith Fastening Systems32 x 75 inchesPrice: $172.00 | |
| | Buy Aerosmith 2 x .144 Smooth Shank Pin 5503P 1000 Per Box from Amazon
More Info... | | Plastic Collated Strip Pins-CT90 Tools, 2 x .144 Smooth Shank Pin; 1000 ctn. Pin fastening has been commonplace in commercial construction for over 50 years. However, many people still have a hard time understanding how a pin can fasten to steel as securely as a conventional screw fastener. The keys to the performance of the technology are the design of the pin and the driving system. Pins are made of special grades of steel that are hardened with a unique heat treating process making them ductile and extremely strong. When driven into steel with the proper pneumatic tool, their ballistic shape point uniformly pierces the steel instead of drilling it out or tearing it like a common nail. The displaced steel rebounds around the pin to create a strong compressive force on the shank of the fastener. This force, working in conjunction with a specific pin knurling pattern designed for the steel being joined, creates a high friction force that prohibits withdrawal of the fastener from the steel. Each pin is designed for a specific range of applications, matching unique characteristics and performance capabilities to the materials being fastened. When the proper pins are used in the application they were designed for, their holding strength and durability often surpasses that of screws. Organizations such as the Light Guage Steel Engineers Association (LGSEA) and the Steel Framing Alliance (SFA) support the use of Pins as a reliable fastening technology. |
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| Aerosmith 1 ½ x .144 Smooth Shank Pin 5383P 1000 Per Box | | 5383PAerosmith Fastening Systems32 x 75 inchesPrice: $100.00 | |
| | Buy Aerosmith 1 ½ x .144 Smooth Shank Pin 5383P 1000 Per Box from Amazon
More Info... | | Plastic Collated Strip Pins-CT90 Tools, 1 ½ x .144 Smooth Shank Pin; 1000 ctn.. Pin fastening has been commonplace in commercial construction for over 50 years. However, many people still have a hard time understanding how a pin can fasten to steel as securely as a conventional screw fastener. The keys to the performance of the technology are the design of the pin and the driving system. Pins are made of special grades of steel that are hardened with a unique heat treating process making them ductile and extremely strong. When driven into steel with the proper pneumatic tool, their ballistic shape point uniformly pierces the steel instead of drilling it out or tearing it like a common nail. The displaced steel rebounds around the pin to create a strong compressive force on the shank of the fastener. This force, working in conjunction with a specific pin knurling pattern designed for the steel being joined, creates a high friction force that prohibits withdrawal of the fastener from the steel. Each pin is designed for a specific range of applications, matching unique characteristics and performance capabilities to the materials being fastened. When the proper pins are used in the application they were designed for, their holding strength and durability often surpasses that of screws. Organizations such as the Light Guage Steel Engineers Association (LGSEA) and the Steel Framing Alliance (SFA) support the use of Pins as a reliable fastening technology. |
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