Corrugated Metal .com carries corrugated metal panels for roofing, flooring, and siding. These corrugated panels are made of rippled metal sheets, one of the most commonly used panels in the industry. Corrugated sheet metal is a tough material, light weight, weather resistant, and practical for many different uses. We specialize in manufacturing top quality corrugated materials for metal roofing, metal siding, corrugated metal decking, and corrugated metal flooring for almost any application.
As an industry leader in providing the best corrugated metal panels, we are able to ensure customer satisfaction by producing metal panels in virtually any material and gauge size. With many different finishes available, we are sure to have something just for your liking.
As an industry leader in providing the best corrugated metal panels, we are able to ensure customer satisfaction by producing metal panels in virtually any material and gauge size. With many different finishes available, we are sure to have something just for your liking.
- Qr Factory 2 9 16 Inch Black Silver
- Qr Factory 2 9 16 Inch Shotshells
- Qr Factory 2 9 16 Inch To Millimeters
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Corrugated Metal Sheet Sizes
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1-1/4' x 1/4' Corrugated Panel
The 1-1/4' corrugated panels primarily come in a galvanized finish, and in lighter gauges. (26-28-29 gauge). This panel has the slightest of the profiles and is used in both decorative & and industrial applications. We can only make this panel profile in almost any material. Please inquire about other finishes such as aluminum & stainless steel. The standard galvanized sheet would come in a standard 26' wide sheet, with lengths of 8′, 10′, & 12′ long.
2-1/2' x 1/2' Corrugated
The 2-1/2” x ½” corrugated sheet metal is probably the most common corrugated panel on the market today, and has been used as the standard“ corrugated” for many years now. The 2-1/2” corrugated is typically used for the “pole-barn” and almost simple corrugated structure. The 2-1/2” dimension denotes the distance from the peak of one ‘bump to the peak of the next, and has an overall height of ½”.We typically stock and sell this in the (G-90) galvanized finish as our standard stocking item, but can provide this is any material you require, such as a plain steel, fiberglass, aluminum (smooth & stucco embossed) as well a painted finish and stainless steel, in both the (T-304) & (T316) materials. Our stocking sheets are all galvanized ::
Pastebot command copy & paste 2 3. 18 – 20 – 22 – 24 – 26 –GAUGES
Galvanized
- 27-1/2”Wide x 8’L
- 27-1/2”Wide x 10’L
- 27-1/2”Wide x 12’L
- 27-1/2”Wide x 20’L
(41-1/4”Wide in S.S. / Alum. 42”W / Fiberglass 45”W)
(Custom Width & Lengths Available Upon Request)
(Custom Width & Lengths Available Upon Request)
Other finishes will have varying widths, so please inquire as to which width is the standard for each material type. We also have started offering the 2-1/2” x ½” in a corrugated & perforated panel which is very unique, which we can do almost any hole pattern with. The 2-1/2” x ½” corrugated panel profile is certainly the most common and most versatile panel on them market today and can be used in any application you may need. Please call Corrugated Metal (215-860-3600) with any size inquiry, 1-2 sheets or 1,000 to 2,000 sheets and we can ship directly from our stock sheets. Also, inquire about whatever finish or material you may need and our sales staff will more then happy to customize your quote and material to fit your needs.
(2.67' x 7/8') Corrugated :
The 2.67′ x 7/8' corrugated profile offers a deep groove for a more pronounced corrugated style. This deeper groove offers a stronger overall panel in any gauge thickness, and allow for a larger span. The 7/8' corrugated is offer in both the galvalume and aluminum materials in standard lengths of 8′,10′, & 12′ long. The typical material thickness offered are either 18-20-22-or-24 gauge. The corrugated with this 2.67' spacing is very widely used in many roofing applications with it’s deep grooving allows more run off of water, and gives an overall S-Style that has the look many people are after. We can offer this panel in stainless steel, but we would typically stock in either a plain galvalume material or the aluminum mill finish, with the smooth or stucco-embossed finish. We also spec. this panel with a large number of our perforated & panel requests. We can also quote this material in a painted finish as well. Please call Corrugated Metal with your inquiry and our knowledgeable staff will more then happy to help you with your order, or material quotation.
2-6/7'x3/4' Corrugated
The 2.67′ x 3/4' corrugated profile offers a deep groove for a more pronounced corrugated style. This deeper groove offers a stronger overall panel in any gauge thickness, and allow for a larger span. The 3/4' corrugated is offer in both the galvalume and aluminum materials in standard lengths of 8′,10′, & 12′ long. The typical material thickness offered are either 18-20-22-or-24 gauge. The corrugated with this 2.67' spacing is very widely used in many roofing applications with it’s deep grooving allows more run off of water, and gives an overall S-Style that has the look many people are after. We can offer this panel in stainless steel, but we would typically stock this in either a plain galvalume material or the aluminum mill finish, with the smooth or stucco-embossed finish. Usbclean 3 4 3. We also spec. this panel with a large number of our perforated & corrugated panel requests. We can also quote this material in a painted finish as well. Please call Corrugated Metal with your inquiry and our knowledgeable staff will more then happy to help you with your order, or material quotation.
Metal | Overall Widths | Finish | Net Coverage | Edges | Availability | |
---|---|---|---|---|---|---|
Siding | Roofing | |||||
Steel & Aluminum | 31'0 | SE/MF | 29 1/3' | 29 1/3' | 2 Down | Standard |
41 3/4' | SE/MF | 40' | 37 1/3' | 1 U/D | Standard |
4.2' Corrugated
Qr Factory 2 9 16 Inch Black Silver
(4.2 panel shown, top to bottom, Galvanized, Bronze-Painted, Aluminum (stucco-embossed) and Kynar painted Beige)
Qr Factory 2 9 16 Inch Shotshells
The 4.2 corrugated panel is a high profile, wavy style panel that is used and can be used in almost any roofing, siding, or decorative application. The (4.2) panel groove is similar to the standard 2-1/2' corrugated and based on the same premise but with bigger more pronounced look. Originally this profile was made in a concrete version and used as an asbestos replacement panel, it is now used in the industry for many others applications where a corrugated look is wanted. The 4.2-Inches denote the distance from one peak to the next peak and has an overall height of 1-1/16' if were laying flat on the ground, this is deepest 'wavy' style of corrugated available anywhere.
The 4.2 Profile is the preferred choice in many applications where a traditional 'corrugated' will work but not look as good, or have the strength of this panel. Not many companies in the country even carry the 4.2 wavy style of corrugated, so look no further since, we also stock this and can make it practically in any material our customers can imagine. Below, are stock sizes, but almost anything can be done in a plain-steel or the standard galvanized. We can also, offer this in a painted version, or stainless steel (both T304 & T316, and in 2-B & #4 finishes), and in aluminum with a mill (smooth) finish, or the Stucco-Embossed (pebble finish). Now offering the 4.2 panel in lengths up to 40′ long. We are also the first offer this in a perforated and corrugated panel which is one the top choices by architects and designers. Please call Corrugated Metal and explore all the possibilities when using the (4.2) Corrugated Roofing/ Siding panel.
STOCK SIZES – Galvanized
18-Gauge / 20-Gauge / 22-Gauge / 24-Gauge
Hot door cadtools 10 0 2 download free. All 42' Wide – 8’Long / 10’Long / 12’Long (max.)
Qr Factory 2 9 16 Inch To Millimeters
For as long as there were military threats from the sea and cannons to defend the land, coastal artillery has been used in many different caliber sizes. Such shore-based artillery were used to shell attacking ships as well as invading amphibious forces. It was such that global military powers felt one piece of shore-based artillery was equal to three guns of the same caliber on ships at sea. The shore based platforms could be hidden behind earthworks or encased within thick walls, keeping them out of sight from the attacking forces and generating a certain level of surprise when utilized. The Empire of Japan constructed the largest naval gun at 18.1 inches (459.74mm) and used these on the famous Yamato-class battleships.
The United States - with two long-running shores to defend - were not lost on the concept of large coastal guns. One of the largest caliber guns to be made in the United States became the M1895 16' (410mm) naval gun constructed specifically for coastal defense - only one was completed by 1914 and this example served at the Panama Canal Zone until 1943. By the time of World War 2, the U.S. Army still required additional large-caliber artillery pieces to help protect its major ports and cities along the coast and ordered additional guns in the 16' size to be forged. Due to global military restrictions imposed by the 1922 Washington Naval Treaty after World War 1, the American Navy was required to cancel the South Dakota-class battleships and the Lexington-class battlecruisers. The new Model 1919 16 inch (406mm) /50 caliber Mark II and Mark III rifled gun barrels built for these two capital classes then became available and 20 of the guns were reassigned to the US Army for their coastal defense needs.
The M1919 guns were massive in presence, measuring some 66.6 feet long and weighing up to 340,000 lbs (170 tons) each. The production process was to wrap steel wire around an inner tube of iron, the steel wire being square and 1 inch on each side. The square wire was kept taught as the iron tube turned in a constant motion. The wire added additional layers around the breech due to the explosion effects of the required powder when firing. When the correct number of layers of wire had been applied, steel hoops were fitted over the wire, then fired, causing the hoops to shrink and merge together into and onto the 1 inch wire (the length and weight of the gun barrel made normal forging impossible). The caliber of the barrel was determined by the ratio of the bore - or 16 inches to the length of the barrel. So one would multiply the caliber (50) times the diameter (16 inches) to equal 800 inches (66.6 feet). The inside of the barrels were right-hand rifled which forced the projectile to rotate clockwise. This 'rifling' - called lands and grooves - generated more inherent distance and accuracy for the shell than any smoothbore cannon would have.
The open rear end of the cannon was the 'breech' and used to access the firing chamber by loading fresh projectiles and allowing firing to take place with relatively safety to the gunnery crew. Collectively with all applicable components this unit was known as a 'breechblock'. Comparatively in a standard infantry rifle, the bolt mechanism acted as the 'breechblock', just on a smaller scale. The breechblock for the 16 inch gun was called the 'Welin breech' which consisted of a single motion screw allowing for fast uninterrupted thread sealing. Used by most Allied heavy naval and field guns of the time, compressed air was used as the primary method to operate the breech. The part of the breech that prevented the hot propellant gasses to escape when firing was the 'Debange Obturator' mechanism for each 16 inch shell was not inserted within an all-encompassing brass jacket with the propellant inside that could not escape the jacket. The shell was rammed into the breech and powder (in silk bags) was seated behind the shell. When the powder was ignited, the Debange steel mushroom head was forced against a series of gaskets, preventing escaping of gases out the breech end of the barrel. This gas was instead forced out of the muzzle end of the barrel, adding to the muzzle's energy.
The United States - with two long-running shores to defend - were not lost on the concept of large coastal guns. One of the largest caliber guns to be made in the United States became the M1895 16' (410mm) naval gun constructed specifically for coastal defense - only one was completed by 1914 and this example served at the Panama Canal Zone until 1943. By the time of World War 2, the U.S. Army still required additional large-caliber artillery pieces to help protect its major ports and cities along the coast and ordered additional guns in the 16' size to be forged. Due to global military restrictions imposed by the 1922 Washington Naval Treaty after World War 1, the American Navy was required to cancel the South Dakota-class battleships and the Lexington-class battlecruisers. The new Model 1919 16 inch (406mm) /50 caliber Mark II and Mark III rifled gun barrels built for these two capital classes then became available and 20 of the guns were reassigned to the US Army for their coastal defense needs.
The M1919 guns were massive in presence, measuring some 66.6 feet long and weighing up to 340,000 lbs (170 tons) each. The production process was to wrap steel wire around an inner tube of iron, the steel wire being square and 1 inch on each side. The square wire was kept taught as the iron tube turned in a constant motion. The wire added additional layers around the breech due to the explosion effects of the required powder when firing. When the correct number of layers of wire had been applied, steel hoops were fitted over the wire, then fired, causing the hoops to shrink and merge together into and onto the 1 inch wire (the length and weight of the gun barrel made normal forging impossible). The caliber of the barrel was determined by the ratio of the bore - or 16 inches to the length of the barrel. So one would multiply the caliber (50) times the diameter (16 inches) to equal 800 inches (66.6 feet). The inside of the barrels were right-hand rifled which forced the projectile to rotate clockwise. This 'rifling' - called lands and grooves - generated more inherent distance and accuracy for the shell than any smoothbore cannon would have.
The open rear end of the cannon was the 'breech' and used to access the firing chamber by loading fresh projectiles and allowing firing to take place with relatively safety to the gunnery crew. Collectively with all applicable components this unit was known as a 'breechblock'. Comparatively in a standard infantry rifle, the bolt mechanism acted as the 'breechblock', just on a smaller scale. The breechblock for the 16 inch gun was called the 'Welin breech' which consisted of a single motion screw allowing for fast uninterrupted thread sealing. Used by most Allied heavy naval and field guns of the time, compressed air was used as the primary method to operate the breech. The part of the breech that prevented the hot propellant gasses to escape when firing was the 'Debange Obturator' mechanism for each 16 inch shell was not inserted within an all-encompassing brass jacket with the propellant inside that could not escape the jacket. The shell was rammed into the breech and powder (in silk bags) was seated behind the shell. When the powder was ignited, the Debange steel mushroom head was forced against a series of gaskets, preventing escaping of gases out the breech end of the barrel. This gas was instead forced out of the muzzle end of the barrel, adding to the muzzle's energy.