The document provides formulas for calculating the weight of various stainless steel products, including pipes, round bars, square bars, hexagonal bars, flat bars, sheets, plates, and circles. It also includes formulas for calculating the weight of brass/copper pipes, lead pipes, aluminum pipes, and aluminum sheets. Additional formulas are provided for converting between meters and feet, calculating bursting pressure, and assessing factors for a healthy business.
Curvy wire mesh fence, also called 3D security fence, security fencing and wire mesh fence, is made from low carbon steel wire or galvanized wire. The curve quantity varies according to the fence height.
The curvy wire mesh fence system is consisted of wire mesh fence panel and post, and the two parts are connected together with accessories. Because of its stable, durable and flexible structure, the curved wire mesh fence is widely used in garden, factory, railway, highway or any other place that would not like visitors.
Curvy wire mesh fence, also called 3D security fence, security fencing and wire mesh fence, is made from low carbon steel wire or galvanized wire. The curve quantity varies according to the fence height.
The curvy wire mesh fence system is consisted of wire mesh fence panel and post, and the two parts are connected together with accessories. Because of its stable, durable and flexible structure, the curved wire mesh fence is widely used in garden, factory, railway, highway or any other place that would not like visitors.
A Din Rail (Mounting Rail) a metal rail of a standard type widely used for mounting circuit breakers and industrial control equipment inside the equipment racks. The design of Trinity Touch Din Rails (Mounting Rails) complies with European standard EN 60715.
Trinity Touch Din Rails (Channels) are zinc plated & chromate passivated.
Trinity Touch Din Rails (MCB Channels) are available in perforated & Un-perforated.
Trinity Touch Din G Rail (Terminal Channel) is available in slotted & Un-slotted version. Profile Cutter used for cutting standard Din Rails, G Rails 32/15, Din Rails 35/7.5, Din Rail 35/15, Din Rails 15/5.5 and neutral busbars NLS-CU 3/10. Trinity Touch Timers and Interface Modules are designed to be mounted on Din Rails (Channels) that can be fixed easily on panel boards and other equipment. All Trinity Touch Din Rail series TBLS, TDR2 & TDR3 are also available cut to length.
We Serve Delhi NCR, Mumbai, Pune, Chennai, Ahmedabad, Bengaluru, Hyderabad, Kolkata and all other major locations in India.
Using long screws directly through an exterior insulation layer to provide cladding attachment without the use of clips or girts has been shown to be a thermally and structurally efficient solution for more energy efficient wood-frame buildings. However, there is still significant scepticism regarding supporting cladding with only screws when using thicker exterior insulation (>38 mm or >1-1/2″), supporting heavy claddings (>48.8 kg/m² or >10 psf, e.g., stucco, stone veneer), or in particular, using exterior mineral wool insulation, which is perceived as insufficiently rigid in comparison to competing foam plastic insulations such as extruded polystyrene insulation (XPS).
Various studies have been conducted to address this gap in industry knowledge and familiarity to help promote adoption of this cladding attachment method. To build on this existing research, which focused on evaluation of screw bending and potential formation of a truss (created by the screw and compression of the insulation), this study focuses on the impact of the compressive strength of the insulation, large thicknesses of insulation (~305 mm or ~12″), and fastener embedment depth (framing member vs. sheathing only) on the structural performance of these systems. The impact of these parameters was evaluated in a laboratory condition using a custom-built apparatus to mechanically imitate cladding (gravity) load in an isolation from other factors such as various other forces building is subject to. The test specimens were selected so that the impact of these parameter can be evaluated by cross comparison. This study found that when 8.0 mm (5/16″) fasteners, fully embedded in to the structural framing, were subjected to common cladding load (9.1 kg or 25 lb per fastener) the deflection observed was typically less than 0.64 mm (0.025″), which is likely insignificant considering potential moisture shrinkage that could be anticipated in a typical one-storey wood-frame construction (10 mm or 3/8″).
Presented at the 15th Canadian Conference on Building Science and Technology.
Ong JIS C8305 E la loai ong co ren, co kich thuoc 19–51 mm, duong kinh ngoai tu 19.1–50.8 mm, do day va chieu dai lan luoc la 1,6mm va 3660 mm. Ong va phu kien duoc lien ket voi nhau bang dai noi, co duc, hop noi ...
Tai cac nuoc Nhat Ban va Dai Loan, cac ky su co dien su dung pho bien tieu chuan Cong nghiep Nhat Ban - JIS khi xet duyet, chon lua san pham ong thep luon day dien, phu kien. Day la tieu chuan cao nhat trong thi cong co dien voi muc do an toan chong chay no cao cho he thong dien ELV - PCCC. Ong JIS C8305 - E duoc danh gia boi tieu chua JIS C8305 va duoc su dung pho bien o Dai Loan, Han Quoc, Indonesia, Nhat Ban va trong do co ca Viet Nam.
A Din Rail (Mounting Rail) a metal rail of a standard type widely used for mounting circuit breakers and industrial control equipment inside the equipment racks. The design of Trinity Touch Din Rails (Mounting Rails) complies with European standard EN 60715.
Trinity Touch Din Rails (Channels) are zinc plated & chromate passivated.
Trinity Touch Din Rails (MCB Channels) are available in perforated & Un-perforated.
Trinity Touch Din G Rail (Terminal Channel) is available in slotted & Un-slotted version. Profile Cutter used for cutting standard Din Rails, G Rails 32/15, Din Rails 35/7.5, Din Rail 35/15, Din Rails 15/5.5 and neutral busbars NLS-CU 3/10. Trinity Touch Timers and Interface Modules are designed to be mounted on Din Rails (Channels) that can be fixed easily on panel boards and other equipment. All Trinity Touch Din Rail series TBLS, TDR2 & TDR3 are also available cut to length.
We Serve Delhi NCR, Mumbai, Pune, Chennai, Ahmedabad, Bengaluru, Hyderabad, Kolkata and all other major locations in India.
Using long screws directly through an exterior insulation layer to provide cladding attachment without the use of clips or girts has been shown to be a thermally and structurally efficient solution for more energy efficient wood-frame buildings. However, there is still significant scepticism regarding supporting cladding with only screws when using thicker exterior insulation (>38 mm or >1-1/2″), supporting heavy claddings (>48.8 kg/m² or >10 psf, e.g., stucco, stone veneer), or in particular, using exterior mineral wool insulation, which is perceived as insufficiently rigid in comparison to competing foam plastic insulations such as extruded polystyrene insulation (XPS).
Various studies have been conducted to address this gap in industry knowledge and familiarity to help promote adoption of this cladding attachment method. To build on this existing research, which focused on evaluation of screw bending and potential formation of a truss (created by the screw and compression of the insulation), this study focuses on the impact of the compressive strength of the insulation, large thicknesses of insulation (~305 mm or ~12″), and fastener embedment depth (framing member vs. sheathing only) on the structural performance of these systems. The impact of these parameters was evaluated in a laboratory condition using a custom-built apparatus to mechanically imitate cladding (gravity) load in an isolation from other factors such as various other forces building is subject to. The test specimens were selected so that the impact of these parameter can be evaluated by cross comparison. This study found that when 8.0 mm (5/16″) fasteners, fully embedded in to the structural framing, were subjected to common cladding load (9.1 kg or 25 lb per fastener) the deflection observed was typically less than 0.64 mm (0.025″), which is likely insignificant considering potential moisture shrinkage that could be anticipated in a typical one-storey wood-frame construction (10 mm or 3/8″).
Presented at the 15th Canadian Conference on Building Science and Technology.
Ong JIS C8305 E la loai ong co ren, co kich thuoc 19–51 mm, duong kinh ngoai tu 19.1–50.8 mm, do day va chieu dai lan luoc la 1,6mm va 3660 mm. Ong va phu kien duoc lien ket voi nhau bang dai noi, co duc, hop noi ...
Tai cac nuoc Nhat Ban va Dai Loan, cac ky su co dien su dung pho bien tieu chuan Cong nghiep Nhat Ban - JIS khi xet duyet, chon lua san pham ong thep luon day dien, phu kien. Day la tieu chuan cao nhat trong thi cong co dien voi muc do an toan chong chay no cao cho he thong dien ELV - PCCC. Ong JIS C8305 - E duoc danh gia boi tieu chua JIS C8305 va duoc su dung pho bien o Dai Loan, Han Quoc, Indonesia, Nhat Ban va trong do co ca Viet Nam.
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FORMULAE OF CALCULATING WEIGIIT
1) Weight of Stainless Steel Pipe
O.D. (mm) - W Thick (mm) X W. Thick (mm) X 0.0248=Wt.Per Mtr
O.D. (mm) - W Thick (mm) X W. Thick (mm) X 0.00756=Wt.Per Feet
2) Weight of Stainless Steel Round Bar
Dia (mm) X Dia (mm) X 0. 00623 = Wt. Per Mtr.
Dia (mm) X Dia (mm) X 0. 0019 = Wt. Per Feet.
3) Weight of Stainless Steel Square Bar
Dia (mm) X Dia (mm) X 0.00788 = Wt. per Mtr.
Dia (mm) X Dia (mm) XO.OO24 = Wt. per Feet
4) Weight of Stainless Steel Hexagonal Bar
Dia (mm) X Dia (mm) X 0.00680 = Wt. per Mtr
Dia (mm) X Dia (mm) XO.OO2O72 = Wt.'per Feet
5) Weight of Stainless Steel Flat Bar
Width (mm) X Thickness (mm) X 0.00798 = Weight per Mtr.
Width (mm) X Thickness (mm) X 0.00243 = Weight per Feet.
6) Weight of Stainless Steel Sheets & Plates
Lenght (Mtrs) X Width (Mtrs) X Thick (mm) X B = Weight per PC
Lenght (Feet) X Width (Feet) X Thick (mm) X 3/4 = Weight per PC
7) Weight of Stainless Steel Circle
Dia (mm) X Dia (mm) X Thck (mm) / 160 = Gms. per PC
Dia (mm) X Dia (mm) X Thck (mm) X 0,0000063 = Kg. per PC
8) Weight to Brass Pipes / Copper Pipes
O.D. (mm) - W. Thick (mm) X W. Tick (mm) X 0.0260 = Wt. Per Mtr.
s) Weight Lead Pipes
O.D. (mm) - W. Thick (mm) X W Tick (mm) X 0.0345 = Wt. Per Mtr,
10) Weight of Aluminium Pipe
O.D. (mm) - W. Thick (mm) X W. Tick (mm) X 0.0083 = Wt. Per Mtr.
11) Weight of Aluminium Sheet
Lenght (Mtrs) X Width (Mtrs) X Thick (mm) X 2.69 = Weight per PC
12 Weight Conversion of Mtr. to Ft.
Lenght (Mtrs) X Width (Mtrs) X Thick (mm) X 2-69 = Weight per PC
13) Wt. of 1 Mtr / 3.2808 = Wt per Ft.
Barlow's Formula for calculating bursting pressure
P = 2ST/D or I-DP/2S or S-DP/2T or D=2ST/P
P = Bursting Pe/ressure P Si., S= Tensile Strenght of tubes, T = Wall Thickness (in inches)
D = Outside Diamete (in inches)
14) Formula for Healthy Business
Honesty + Quality of Goods + Quick Service = Good Healthy Business
E-mail : bagoda@vsnl.net www. bagodasteelproject.com