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Sandwich panel

January 01, 1970

Not to be confused with Sandwich plate system.

A sandwich panel is any structure made of three layers: a low-density core (PIR, mineral wool, XPS), and a thin skin-layer bonded to each side. Sandwich panels are used in applications where a combination of high structural rigidity and low weight is required.

Aluminium composite material panel structure

The structural functionality of a sandwich panel is similar to the classic I-beam, where two face sheets primarily resist the in-plane and lateral bending loads (similar to flanges of an I- beam), while the core material mainly resists the shear loads (similar to the web of an I-beam).[1] The idea is to use a light/soft but thick layer for the core and strong but thin layers for face sheets. This results in increasing the overall thickness of the panel, which often improves the structural attributes, like bending stiffness, and maintains or even reduces the weight.[2]

Sandwich panels are an example of a sandwich-structured composite: the strength and lightness of this technology makes it popular and widespread. Its versatility means that the panels have many applications and come in many forms: the core and skin materials can vary widely and the core may be a honeycomb or a solid filling. Enclosed panels are termed cassettes.

Applications edit

 
Epcot's Spaceship Earth is an example of the use of ACP in architecture. It is a geodesic sphere composed of 11,324 ACP tiles.

One obvious application is in aircraft, where mechanical performance and weight-saving are essential. Transportation and automotive applications also exist.[3]

In building and construction, these prefabricated products designed for use as building envelopes. They appear in industrial and office buildings, in clean and cold rooms and also in private houses, whether renovation or new-build. They combine a high-quality product with high flexibility regarding design. They generally have a good energy-efficiency and sustainability.[4]

In packaging, applications include fluted polypropylene boards and polypropylene honeycomb boards.[5]

Types edit

3D-printed biopolymer panels edit

Due to the ability of 3D printers to fabricate complex sandwich panels there has recently been a flourishing of research in this area covering energy absorption,[6] natural fiber,[7] with continuous synthetic fibers,[8] and for vibration.[9] The promise of this technology is for new geometric complexities in sandwich panels not possible with other fabrication processes.

SIP edit

Structural insulated panels or structural insulating panels (commonly referred to as SIPs) are panels used as a building material.

ACP edit

 
Construction site panel made of aluminium composite material (Dibond)
 
Detail view of construction site panel

Aluminium composite panels (ACP), made of aluminium composite material (ACM), are flat panels consisting of two thin coil-coated aluminium sheets bonded to a non-aluminium core. ACPs are frequently used for external cladding or facades of buildings, insulation, and signage.[10]

ACP is mainly used for external and internal architectural cladding or partitions, false ceilings, signage, machine coverings, container construction, etc. Applications of ACP are not limited to external building cladding, but can also be used in any form of cladding such as partitions, false ceilings, etc. ACP is also widely used within the signage industry as an alternative to heavier, more expensive substrates.

ACP has been used as a light-weight but very sturdy material in construction, particularly for transient structures like trade show booths and similar temporary elements. It has recently also been adopted as a backing material for mounting fine art photography, often with an acrylic finish using processes like Diasec or other face-mounting techniques. ACP material has been used in famous structures as Spaceship Earth, VanDusen Botanical Garden, and the Leipzig branch of the German National Library.[11]

These structures made optimal use of ACP through its cost, durability, and efficiency. Its flexibility, low weight, and easy forming and processing allow for innovative design with increased rigidity and durability. Where the core material is flammable, the usage must be considered. The standard ACP core is polyethylene (PE) or polyurethane (PU). These materials do not have good fire-resistant (FR) properties unless specially treated and are therefore not generally suitable as a building material for dwellings; several jurisdictions have banned their use completely.[12] Arconic, owner of the Reynobond brand, cautions the prospective buyer. Concerning the core, it says that distance of the panel from the ground is a determinant of "which materials are safer to use". In a brochure it has a graphic of a building in flames, with the caption "[a]s soon as the building is higher than the firefighters’ ladders, it has to be conceived with an incombustible material". It shows that the Reynobond polyethylene product is for up to circa 10 meters; the fire-retardant product (c. 70% mineral core) from there to up to c. 30 meters, the height of the ladder; and the European A2-rated product (c. 90% mineral core) for anything above that. In this brochure, Fire Safety in High-rise Buildings: Our Fire Solutions, product specification is only given for the last two products.[13]

The cladding materials, in this case having the highly combustible Polyethylene (PE) core, were implicated as the principal cause of the rapid spread of flame in the 2017 Grenfell Tower fire in London.[14] It has also been involved in high-rise building fires in Melbourne, Australia; France; the United Arab Emirates; South Korea; and the United States.[15] Fire-rated cores (typically designated as "FR" by the manufacturers) are a safer alternative as they have a maximum of 30% Polyethylene Content, and will self-extinguish in the absence of heat/ventilation.[16] As with any building product, fitness for use is dependent on multiple other products and methods. In the case of ACP, building codes in USA have many requirements related to the wall assembly depending on the materials used and the building type. When these building codes are followed, the FR core products are safe. Note that the term ACP does not apply to sandwich panels with Mineral Wool cores, which fall under the category of Insulated Metal Panels (IMP).

The aluminium sheets can be coated with polyvinylidene fluoride (PVDF), fluoropolymer resins (FEVE), or polyester paint. Aluminium can be painted in any kind of colour, and ACPs are produced in a wide range of metallic and non-metallic colours as well as patterns that imitate other materials, such as wood or marble. The core is commonly low-density polyethylene (PE), or a mix of low-density polyethylene and mineral material to exhibit fire retardant properties.[10]

3A Composites (formerly Alcan Composites & Alusuisse) invented aluminium composites in 1964 - as a joint invention with BASF- and commercial production of Alucobond commenced in 1969. The product was patented in 1971, a patent which expired in 1991. After the expiration of the patent several companies started commercial production such as Reynobond (1991), Alpolic (Mitsubishi Chemicals, 1995), etalbond (1995). Today, it is estimated [by whom?] that more than 200 companies across the world are producing ACP.

History edit

Sandwich panel construction techniques have experienced considerable development in the last 40 years. Previously, sandwich panels were considered products suitable only for functional constructions and industrial buildings. However, their good insulation characteristics, their versatility, quality and appealing visual appearance, have resulted in a growing and widespread use of the panels across a huge variety of buildings.

Code of practice edit

  • Sandwich panels require the CE mark to be sold in Europe. The European sandwich panel standard is EN14509:2013 Self-supporting double-skin metal-faced insulating-panels - Factory-made products – Specifications.
  • Sandwich panels quality can be certified by applying the quality level EPAQ

Characteristics edit

The qualities that have produced the rapid growth in the use of sandwich panels, particularly in construction, include:

Thermal resistance edit

  • Sandwich panels have λ-values from 0.024 W/(m·K) for polyurethane to 0.05 W/(m·K) for mineral wool. Therefore, they can achieve different U-values depending on the core and the thickness of the panel.
  • The installation of a system with sandwich panels minimizes thermal bridges through the joints.

Acoustic insulation edit

  • The assessed sound reduction measurement lies at approx. 25 dB for PU elements and at approx. 30 dB for MW elements.

Mechanical properties edit

  • The space between the supports can be up to 11 m (walls), depending on the type of panel used. Normal applications have spaces between the supports that are approx. 3 m – 5 m.
  • The thickness of panels is from 40 mm up to more than 200 mm.
  • The density of sandwich panels range from 10 kg/m2 up to 35 kg/m2, depending on the foam and metal thickness, decreasing time and effort in: transportation, handling and installation.
  • All these geometric and material properties influence the global/local failure behavior of the sandwich panels under different loading conditions such as indentation,[17] impact,[18] fatigue[19] and bending.[20]

Fire behaviour edit

 
The catastrophic Grenfell Tower Fire, which killed 72 people, was partially attributed to the flammability of the sandwich panel cladding used in the building.
  • Sandwich panels have different fire behaviours, resistance and reaction, depending on: the foam, the metal thickness, the coating, etc. The user will need to choose between the different sandwich panel types, depending on the requirements.
  • Research by the Association of British Insurers and the Building Research Establishment in the UK highlighted that "sandwich panels do not start a fire on their own, and where these systems have been implicated in fire spread, the fire has often started in high risk areas such as cooking areas, subsequently spreading as a result of poor fire risk management, prevention and containment measures".[21]
  • There is evidence that when sandwich panels are used to clad a building it can contribute to the rapid spread of fire up the outside of the building itself. As an architect put it, in choosing the core material for a sandwich panel "I only use the mineral wool ones because your gut tells you it is not right to wrap a building in plastic".[22] In 2000 Gordon Cooke, a leading fire safety consultant, reported that "the use of plastic foam cored sandwich panels ... is difficult to justify when considering life safety". He said the panels "can contribute to the severity and speed of fire development" and this has led to "massive fire losses".[23]
  • Design of a cavity between the cladding and the exterior wall of the building (or its sheath of insulation) is also significant: flames can occupy the cavity and be drawn upwards by convection, elongating to create secondary fires, and do so "regardless of the materials used to line the cavities".[24]

Impermeability edit

  • The assembly system of sandwich panels helps create air and water-tight buildings.

See also edit

References edit

  1. ^ Thomsen, O. T.; Bozhevolnaya, E.; Lyckegaard, A. (2005). Sandwich structures 7: advancing with sandwich structures and materials. Springer. ISBN 978-1-4020-3444-2.
  2. ^ Aly, Mohamed F.; Hamza, Karim T.; Farag, Mahmoud M. (April 2014). "A materials selection procedure for sandwiched beams via parametric optimization with applications in automotive industry". Materials & Design. 56: 219–226. doi:10.1016/j.matdes.2013.10.075.
  3. ^ "Gorcell by Renolit". Renolit.com. Retrieved 3 October 2014.
  4. ^ . coroplast.com. Archived from the original on 27 October 2012. Retrieved 3 October 2014.
  5. ^ "Packaging sandwich panels". Karton.it. Retrieved 3 October 2014.
  6. ^ Yazdani Sarvestani, H.; Akbarzadeh, A.H.; Niknam, H.; Hermenean, K. (September 2018). "3D printed architected polymeric sandwich panels: Energy absorption and structural performance". Composite Structures. 200: 886–909. doi:10.1016/j.compstruct.2018.04.002. S2CID 139864616.
  7. ^ Azzouz, Lyes; Chen, Yong; Zarrelli, Mauro; Pearce, Joshua M.; Mitchell, Leslie; Ren, Guogang; Grasso, Marzio (April 2019). "Mechanical properties of 3-D printed truss-like lattice biopolymer non-stochastic structures for sandwich panels with natural fibre composite skins" (PDF). Composite Structures. 213: 220–230. doi:10.1016/j.compstruct.2019.01.103. hdl:2299/21029. S2CID 139339364.
  8. ^ Sugiyama, Kentaro; Matsuzaki, Ryosuke; Ueda, Masahito; Todoroki, Akira; Hirano, Yoshiyasu (October 2018). "3D printing of composite sandwich structures using continuous carbon fiber and fiber tension". Composites Part A: Applied Science and Manufacturing. 113: 114–121. doi:10.1016/j.compositesa.2018.07.029. S2CID 140038331.
  9. ^ Zhang, Xiaoyu; Zhou, Hao; Shi, Wenhua; Zeng, Fuming; Zeng, Huizhong; Chen, Geng (October 2018). "Vibration Tests of 3D Printed Satellite Structure Made of Lattice Sandwich Panels". AIAA Journal. 56 (10): 4213–4217. Bibcode:2018AIAAJ..56.4213Z. doi:10.2514/1.J057241. S2CID 125328879.
  10. ^ a b . Architectural Metal Designs. Archived from the original on 24 July 2014.
  11. ^ "ALUCOBOND® A2". Alucobond. Retrieved 31 January 2013.
  12. ^ Walker, Alissa (6 January 2016). "When Will Dubai Fix Its Burning Skyscraper Problem?". Gizmodo. Gawker Media. Retrieved 6 January 2016.
  13. ^ (PDF). Arconic Architectural Products SAS. December 2016. Archived from the original (PDF) on 6 April 2019. Retrieved 23 June 2017.
  14. ^ "Grenfell Tower inquiry: the chair's findings so far". The Guardian. 30 October 2019. Retrieved 8 September 2021.
  15. ^ Wahlquist, Calla (15 June 2017). "Cladding in London high-rise fire also blamed for 2014 Melbourne blaze". The Guardian. Retrieved 15 June 2017.
  16. ^ "Aluminum Composite Cladding and Fire: Safety Takes a Team Effort". January 2019.
  17. ^ Rajaneesh, A.; Sridhar, I.; Akisanya, A.R. (January 2016). "Indentation failure of circular composite sandwich plates". Materials & Design. 89: 439–447. doi:10.1016/j.matdes.2015.09.070. hdl:2164/7951.
  18. ^ Rajaneesh, A.; Sridhar, I.; Rajendran, S. (March 2014). "Relative performance of metal and polymeric foam sandwich plates under low velocity impact". International Journal of Impact Engineering. 65: 126–136. doi:10.1016/j.ijimpeng.2013.11.012. hdl:10356/103635.
  19. ^ Rajaneesh, A.; Satrio, W.; Chai, G.B.; Sridhar, I. (April 2016). "Long-term life prediction of woven CFRP laminates under three point flexural fatigue". Composites Part B: Engineering. 91: 539–547. doi:10.1016/j.compositesb.2016.01.028.
  20. ^ Rajaneesh, A.; Sridhar, I.; Rajendran, S. (June 2014). "Failure mode maps for circular composites sandwich plates under bending". International Journal of Mechanical Sciences. 83: 184–195. doi:10.1016/j.ijmecsci.2014.03.029.
  21. ^ Association of British Insurers (May 2003). "Technical briefing: fire performance of sandwich panel systems" (PDF).
  22. ^ Booth, Robert; Sample, Ian; Pegg, David; Watt, Holly (15 June 2017). "Experts warned government against cladding material used on Grenfell". The Guardian.
  23. ^ Gordon M E Cooke (November 2000). "Sandwich panels for external cladding – fire safety issues and implications for the risk assessment process" (PDF).
  24. ^ Probyn Miers (Winter 2016). "Fire Risks From External Cladding Panels – A Perspective From The UK". Perspective. (3.3.2 Cavities).

External links edit

  • PPA-Europe: European Association for Panels and Profiles
  • IFBS: Internationaler Verband für den Metallleichtbau
  • SNPPA: Syindicat National du Profilage des products Plats en Acier
  • EURIMA: European Insulation Manufactures Association
  • PU Europe: European polyurethane insulation industry
  • MFB: Alliance of European metal associations

January 01, 1970
sandwich, panel, confused, with, sandwich, plate, system, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, news. Not to be confused with Sandwich plate system This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Sandwich panel news newspapers books scholar JSTOR August 2010 Learn how and when to remove this message A sandwich panel is any structure made of three layers a low density core PIR mineral wool XPS and a thin skin layer bonded to each side Sandwich panels are used in applications where a combination of high structural rigidity and low weight is required Aluminium composite material panel structure The structural functionality of a sandwich panel is similar to the classic I beam where two face sheets primarily resist the in plane and lateral bending loads similar to flanges of an I beam while the core material mainly resists the shear loads similar to the web of an I beam 1 The idea is to use a light soft but thick layer for the core and strong but thin layers for face sheets This results in increasing the overall thickness of the panel which often improves the structural attributes like bending stiffness and maintains or even reduces the weight 2 Sandwich panels are an example of a sandwich structured composite the strength and lightness of this technology makes it popular and widespread Its versatility means that the panels have many applications and come in many forms the core and skin materials can vary widely and the core may be a honeycomb or a solid filling Enclosed panels are termed cassettes Contents 1 Applications 2 Types 2 1 3D printed biopolymer panels 2 2 SIP 2 3 ACP 3 History 4 Code of practice 5 Characteristics 5 1 Thermal resistance 5 2 Acoustic insulation 5 3 Mechanical properties 5 4 Fire behaviour 5 5 Impermeability 6 See also 7 References 8 External linksApplications edit nbsp Epcot s Spaceship Earth is an example of the use of ACP in architecture It is a geodesic sphere composed of 11 324 ACP tiles One obvious application is in aircraft where mechanical performance and weight saving are essential Transportation and automotive applications also exist 3 In building and construction these prefabricated products designed for use as building envelopes They appear in industrial and office buildings in clean and cold rooms and also in private houses whether renovation or new build They combine a high quality product with high flexibility regarding design They generally have a good energy efficiency and sustainability 4 In packaging applications include fluted polypropylene boards and polypropylene honeycomb boards 5 Types edit3D printed biopolymer panels edit Due to the ability of 3D printers to fabricate complex sandwich panels there has recently been a flourishing of research in this area covering energy absorption 6 natural fiber 7 with continuous synthetic fibers 8 and for vibration 9 The promise of this technology is for new geometric complexities in sandwich panels not possible with other fabrication processes SIP edit Structural insulated panels or structural insulating panels commonly referred to as SIPs are panels used as a building material ACP edit nbsp Construction site panel made of aluminium composite material Dibond nbsp Detail view of construction site panel Aluminium composite panels ACP made of aluminium composite material ACM are flat panels consisting of two thin coil coated aluminium sheets bonded to a non aluminium core ACPs are frequently used for external cladding or facades of buildings insulation and signage 10 ACP is mainly used for external and internal architectural cladding or partitions false ceilings signage machine coverings container construction etc Applications of ACP are not limited to external building cladding but can also be used in any form of cladding such as partitions false ceilings etc ACP is also widely used within the signage industry as an alternative to heavier more expensive substrates ACP has been used as a light weight but very sturdy material in construction particularly for transient structures like trade show booths and similar temporary elements It has recently also been adopted as a backing material for mounting fine art photography often with an acrylic finish using processes like Diasec or other face mounting techniques ACP material has been used in famous structures as Spaceship Earth VanDusen Botanical Garden and the Leipzig branch of the German National Library 11 These structures made optimal use of ACP through its cost durability and efficiency Its flexibility low weight and easy forming and processing allow for innovative design with increased rigidity and durability Where the core material is flammable the usage must be considered The standard ACP core is polyethylene PE or polyurethane PU These materials do not have good fire resistant FR properties unless specially treated and are therefore not generally suitable as a building material for dwellings several jurisdictions have banned their use completely 12 Arconic owner of the Reynobond brand cautions the prospective buyer Concerning the core it says that distance of the panel from the ground is a determinant of which materials are safer to use In a brochure it has a graphic of a building in flames with the caption a s soon as the building is higher than the firefighters ladders it has to be conceived with an incombustible material It shows that the Reynobond polyethylene product is for up to circa 10 meters the fire retardant product c 70 mineral core from there to up to c 30 meters the height of the ladder and the European A2 rated product c 90 mineral core for anything above that In this brochure Fire Safety in High rise Buildings Our Fire Solutions product specification is only given for the last two products 13 The cladding materials in this case having the highly combustible Polyethylene PE core were implicated as the principal cause of the rapid spread of flame in the 2017 Grenfell Tower fire in London 14 It has also been involved in high rise building fires in Melbourne Australia France the United Arab Emirates South Korea and the United States 15 Fire rated cores typically designated as FR by the manufacturers are a safer alternative as they have a maximum of 30 Polyethylene Content and will self extinguish in the absence of heat ventilation 16 As with any building product fitness for use is dependent on multiple other products and methods In the case of ACP building codes in USA have many requirements related to the wall assembly depending on the materials used and the building type When these building codes are followed the FR core products are safe Note that the term ACP does not apply to sandwich panels with Mineral Wool cores which fall under the category of Insulated Metal Panels IMP The aluminium sheets can be coated with polyvinylidene fluoride PVDF fluoropolymer resins FEVE or polyester paint Aluminium can be painted in any kind of colour and ACPs are produced in a wide range of metallic and non metallic colours as well as patterns that imitate other materials such as wood or marble The core is commonly low density polyethylene PE or a mix of low density polyethylene and mineral material to exhibit fire retardant properties 10 3A Composites formerly Alcan Composites amp Alusuisse invented aluminium composites in 1964 as a joint invention with BASF and commercial production of Alucobond commenced in 1969 The product was patented in 1971 a patent which expired in 1991 After the expiration of the patent several companies started commercial production such as Reynobond 1991 Alpolic Mitsubishi Chemicals 1995 etalbond 1995 Today it is estimated by whom that more than 200 companies across the world are producing ACP History editSandwich panel construction techniques have experienced considerable development in the last 40 years Previously sandwich panels were considered products suitable only for functional constructions and industrial buildings However their good insulation characteristics their versatility quality and appealing visual appearance have resulted in a growing and widespread use of the panels across a huge variety of buildings Code of practice editSandwich panels require the CE mark to be sold in Europe The European sandwich panel standard is EN14509 2013 Self supporting double skin metal faced insulating panels Factory made products Specifications Sandwich panels quality can be certified by applying the quality level EPAQCharacteristics editThe qualities that have produced the rapid growth in the use of sandwich panels particularly in construction include Thermal resistance edit Sandwich panels have l values from 0 024 W m K for polyurethane to 0 05 W m K for mineral wool Therefore they can achieve different U values depending on the core and the thickness of the panel The installation of a system with sandwich panels minimizes thermal bridges through the joints Acoustic insulation edit The assessed sound reduction measurement lies at approx 25 dB for PU elements and at approx 30 dB for MW elements Mechanical properties edit The space between the supports can be up to 11 m walls depending on the type of panel used Normal applications have spaces between the supports that are approx 3 m 5 m The thickness of panels is from 40 mm up to more than 200 mm The density of sandwich panels range from 10 kg m2 up to 35 kg m2 depending on the foam and metal thickness decreasing time and effort in transportation handling and installation All these geometric and material properties influence the global local failure behavior of the sandwich panels under different loading conditions such as indentation 17 impact 18 fatigue 19 and bending 20 Fire behaviour edit nbsp The catastrophic Grenfell Tower Fire which killed 72 people was partially attributed to the flammability of the sandwich panel cladding used in the building Sandwich panels have different fire behaviours resistance and reaction depending on the foam the metal thickness the coating etc The user will need to choose between the different sandwich panel types depending on the requirements Research by the Association of British Insurers and the Building Research Establishment in the UK highlighted that sandwich panels do not start a fire on their own and where these systems have been implicated in fire spread the fire has often started in high risk areas such as cooking areas subsequently spreading as a result of poor fire risk management prevention and containment measures 21 There is evidence that when sandwich panels are used to clad a building it can contribute to the rapid spread of fire up the outside of the building itself As an architect put it in choosing the core material for a sandwich panel I only use the mineral wool ones because your gut tells you it is not right to wrap a building in plastic 22 In 2000 Gordon Cooke a leading fire safety consultant reported that the use of plastic foam cored sandwich panels is difficult to justify when considering life safety He said the panels can contribute to the severity and speed of fire development and this has led to massive fire losses 23 Design of a cavity between the cladding and the exterior wall of the building or its sheath of insulation is also significant flames can occupy the cavity and be drawn upwards by convection elongating to create secondary fires and do so regardless of the materials used to line the cavities 24 Impermeability edit The assembly system of sandwich panels helps create air and water tight buildings See also editSandwich theory Sandwich structured composite Composite honeycomb Hill yield criteria Plate theory Thermal insulation Acoustic insulation Mineral woolReferences edit Thomsen O T Bozhevolnaya E Lyckegaard A 2005 Sandwich structures 7 advancing with sandwich structures and materials Springer ISBN 978 1 4020 3444 2 Aly Mohamed F Hamza Karim T Farag Mahmoud M April 2014 A materials selection procedure for sandwiched beams via parametric optimization with applications in automotive industry Materials amp Design 56 219 226 doi 10 1016 j matdes 2013 10 075 Gorcell by Renolit Renolit com Retrieved 3 October 2014 Stinger honeycomb panel coroplast com Archived from the original on 27 October 2012 Retrieved 3 October 2014 Packaging sandwich panels Karton it Retrieved 3 October 2014 Yazdani Sarvestani H Akbarzadeh A H Niknam H Hermenean K September 2018 3D printed architected polymeric sandwich panels Energy absorption and structural performance Composite Structures 200 886 909 doi 10 1016 j compstruct 2018 04 002 S2CID 139864616 Azzouz Lyes Chen Yong Zarrelli Mauro Pearce Joshua M Mitchell Leslie Ren Guogang Grasso Marzio April 2019 Mechanical properties of 3 D printed truss like lattice biopolymer non stochastic structures for sandwich panels with natural fibre composite skins PDF Composite Structures 213 220 230 doi 10 1016 j compstruct 2019 01 103 hdl 2299 21029 S2CID 139339364 Sugiyama Kentaro Matsuzaki Ryosuke Ueda Masahito Todoroki Akira Hirano Yoshiyasu October 2018 3D printing of composite sandwich structures using continuous carbon fiber and fiber tension Composites Part A Applied Science and Manufacturing 113 114 121 doi 10 1016 j compositesa 2018 07 029 S2CID 140038331 Zhang Xiaoyu Zhou Hao Shi Wenhua Zeng Fuming Zeng Huizhong Chen Geng October 2018 Vibration Tests of 3D Printed Satellite Structure Made of Lattice Sandwich Panels AIAA Journal 56 10 4213 4217 Bibcode 2018AIAAJ 56 4213Z doi 10 2514 1 J057241 S2CID 125328879 a b Products Aluminum Composite Panels Architectural Metal Designs Archived from the original on 24 July 2014 ALUCOBOND A2 Alucobond Retrieved 31 January 2013 Walker Alissa 6 January 2016 When Will Dubai Fix Its Burning Skyscraper Problem Gizmodo Gawker Media Retrieved 6 January 2016 Fire Safety in High rise Buildings Our Fire Solutions PDF Arconic Architectural Products SAS December 2016 Archived from the original PDF on 6 April 2019 Retrieved 23 June 2017 Grenfell Tower inquiry the chair s findings so far The Guardian 30 October 2019 Retrieved 8 September 2021 Wahlquist Calla 15 June 2017 Cladding in London high rise fire also blamed for 2014 Melbourne blaze The Guardian Retrieved 15 June 2017 Aluminum Composite Cladding and Fire Safety Takes a Team Effort January 2019 Rajaneesh A Sridhar I Akisanya A R January 2016 Indentation failure of circular composite sandwich plates Materials amp Design 89 439 447 doi 10 1016 j matdes 2015 09 070 hdl 2164 7951 Rajaneesh A Sridhar I Rajendran S March 2014 Relative performance of metal and polymeric foam sandwich plates under low velocity impact International Journal of Impact Engineering 65 126 136 doi 10 1016 j ijimpeng 2013 11 012 hdl 10356 103635 Rajaneesh A Satrio W Chai G B Sridhar I April 2016 Long term life prediction of woven CFRP laminates under three point flexural fatigue Composites Part B Engineering 91 539 547 doi 10 1016 j compositesb 2016 01 028 Rajaneesh A Sridhar I Rajendran S June 2014 Failure mode maps for circular composites sandwich plates under bending International Journal of Mechanical Sciences 83 184 195 doi 10 1016 j ijmecsci 2014 03 029 Association of British Insurers May 2003 Technical briefing fire performance of sandwich panel systems PDF Booth Robert Sample Ian Pegg David Watt Holly 15 June 2017 Experts warned government against cladding material used on Grenfell The Guardian Gordon M E Cooke November 2000 Sandwich panels for external cladding fire safety issues and implications for the risk assessment process PDF Probyn Miers Winter 2016 Fire Risks From External Cladding Panels A Perspective From The UK Perspective 3 3 2 Cavities External links editPPA Europe European Association for Panels and Profiles IFBS Internationaler Verband fur den Metallleichtbau SNPPA Syindicat National du Profilage des products Plats en Acier EURIMA European Insulation Manufactures Association PU Europe European polyurethane insulation industry ISOPA European Diisocyanate and Poliol Producers Association MFB Alliance of European metal associations Retrieved from https en wikipedia org w index php title Sandwich panel amp oldid 1213878669, wikipedia, wiki, book, books, library,

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