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Civil Engineering Materiel's 2017

Civil Engineering Materiel's 2017
Prepared By
MD. Sakin Morshed
Lecturer, Département Of Civil Engineering


Types of Materials:
Bricks
1. Hollow Blocks
2. Green Bricks
Making & Use
Differentiate green bricks for the materials they are constructed and there are several proposals (in line or already in progress) of bricks with different components:

Coal ash: This was an idea of a civil engineer, Henry Liu, in 1999, with a double environmental benefit. With this material the bricks are obtained at 212 degrees in 10 hours and take advantage of 45 million tons of the waste generated by coal power plants.

Hemp and straw: This brick and green has been used by Spanish companies. Despite the apparent fragility of the material hardness is similar to conventional ones. They have the disadvantage of being more expensive but well isolated from the outside temperature. This represents a savings of energy expenditure for heating and air conditioning, so that pays the price soon.

Used plastic and peanut shells: ecological bricks of this material are a creation of the Experimental Center for Economic Housing in Argentina who says they are tough, lightweight insulation and economic. In addition to producing energy savings possible recycling of waste for production.

Civil Engineering Materiel's 2017

  1. 1. Engineering Matériels Prepared By MD. Sakin Morshed Lecturer, Département Of Civil Engineering
  2. 2. Hollow Blocks
  3. 3. Hollow Blocks
  4. 4. Green Bricks
  5. 5. Green Bricks
  6. 6. Making & Use • Differentiate green bricks for the materials they are constructed and there are several proposals (in line or already in progress) of bricks with different components: • Coal ash: This was an idea of a civil engineer, Henry Liu, in 1999, with a double environmental benefit. With this material the bricks are obtained at 212 degrees in 10 hours and take advantage of 45 million tons of the waste generated by coal power plants. • Hemp and straw: This brick and green has been used by Spanish companies. Despite the apparent fragility of the material hardness is similar to conventional ones. They have the disadvantage of being more expensive but well isolated from the outside temperature. This represents a savings of energy expenditure for heating and air conditioning, so that pays the price soon. • Used plastic and peanut shells: ecological bricks of this material are a creation of the Experimental Center for Economic Housing in Argentina who says they are tough, lightweight insulation and economic. In addition to producing energy savings possible recycling of waste for production.
  7. 7. Concrete Blocks
  8. 8. Foam Blocks
  9. 9. Ceramic Brick
  10. 10. Ceramic Brick
  11. 11. Ceramic Brick
  12. 12. Ceramic Brick
  13. 13. Steel-Fiber- Concrete
  14. 14. Fireclay and high alumina brick
  15. 15. SIMPROLIT BLOCKS
  16. 16. SIMPROLIT BLOCKS
  17. 17. Use • Simprolit blocks for facade and partition walls clearly distinguish themselves from other Simprolit products by their unique relation between: quality - low thermal conductivity - durability -good soundproofing - good waterproofing - small weight of structure - cost- effectiveness. • These blocks have excellent sanitary-epidemiological properties, which are a whole class higher than values required by the GOST R 51263-99 standard. Buildings made with Simprolit blocks are not just very comfortable to live in (according to GOST 30494-96), but also ecologically suitable (according to GOST 30775-2011 and GOST R 51769-2001). • Walls made of Simprolit blocks are declared as ''dry'' (with less than 4% humidity). In case of plumbing damage and excessive water flow, wet walls dry quickly without permanent loss of physical properties. When exposed to flood, walls made with Simprolit blocks do not absorb water capillary the way that brick, Siporex, gas concrete, expanded clay concrete or other similar materials do (walls made of these other materials absorb water all along their height and afterwards it takes a long period of time for them to dry - sometimes more than a year).
  18. 18. Use • On the other hand, level of water absorbed by Simprolit blocks is just 3-4 cm higher than the flood level and after the removal of the excess water Simprolit block walls dry very quickly which is a fact that has been certified by the lab tests conducted at the Institute for materials and structures - Faculty of Civil engineering in Belgrade. • In the class of light-weight concretes Simprolit polystyrene concrete is one of the lightest composites and the weight of Simprolit products is up to several times smaller then the weight of similar materials. By using Simprolit blocks for facade and partition walls the load carried by structural members becomes considerably reduced, consequently reducing dimensions, required reinforcement and weight of these members which has direct influence on the price of the building. • Thanks to the light-weightiness of the material, building with Simprolit blocks is very suitable in case of adaptation of existing structures or additional building of attics on the top of flat- roof structures. As a rule, when adapting a flat-roof structure the total load of the adapted or additionally built part of the structure is smaller than the weight of all layers of a conventional flat roof - so there is no need for any foundation strengthening.
  19. 19. Use • For example, if it is possible to add two extra stories to the existing structure using other materials, it can be shown that with Simprolit it is possible to build three stories keeping the same weight of the additional structure. Also, the light- weightiness of Simprolit blocks together with simple and fast construction method makes it possible to perform the adaptation without moving out the tenants of the adapted building, which often represents a large difficulty for other similar methods using lightweight materials and prefabricated metal or concrete bearing elements. • The fact to be particularly underlined is that Simprolit blocks have no real competition in their category when it comes to building rooms subjected to increased humidity - such as kitchen or bathroom walls including plumbing.
  20. 20. Examples of some uses
  21. 21. WALL CONSTRUCTION WITH SIMPROLIT BLOCKS
  22. 22. WALL CONSTRUCTION WITH SIMPROLIT BLOCKS
  23. 23. WALL CONSTRUCTION WITH SIMPROLIT BLOCKS
  24. 24. WALL CONSTRUCTION WITH SIMPROLIT BLOCKS
  25. 25. WALL CONSTRUCTION WITH SIMPROLIT BLOCKS
  26. 26. WALL CONSTRUCTION WITH SIMPROLIT BLOCKS
  27. 27. WALL CONSTRUCTION WITH SIMPROLIT BLOCKS
  28. 28. PLASTERWORK ON SIMPROLIT BLOCKS
  29. 29. Orangs Brick
  30. 30. Different Brick Surface
  31. 31. Closure
  32. 32. White Cément
  33. 33. Polymar Bonding Materials
  34. 34. Polyester fiber
  35. 35. Uses • Followed by the successful application of polypropylene fiber in cement concrete works, polyester fiber is a kind of recently-developed new engineering material mainly applicable to the reinforcement of anti-cracking properties of asphalt concrete. By taking polyester as the main raw material, it is produced through the application of process listed as follows, the plasticization melting, extrusion, high speed filament injection, and high-rate tensile is followed by the special surface treatment process and cut-off by special cutting machine. The appearance of product is a mesh-shaped structure integrating with multiple pieces of fiber monofilament. • Polyester fiber is not only characterized by such merits as high fineness, high strength, and ease of dispersion in common polymer fiber, but also featured with pronounced high temperature resistance performance. For this regard, it can either be widely applied in hot mixing asphalt concrete works, or applied in the anti- cracking reinforcement of high strength concrete. In a word, it is considered as an ideal multi-functional reinforcement material. Tests conducted by several authoritative institutions around China indicated that the main technical performance indicators of polyester fiber produced by our company meet or exceed the advanced level of similar products abroad.
  36. 36. • Performance Indexes of Polyseter Fiber Raw Material Polythylene Terephthalate(PET) Fiber Length 6mm,10mm,12mm Fiber Type Monofilament Density 1.36-1.4g/cm³ Fiber Diameter 0.02±0.05mm Melting Point >249℃ Tensile Strength ≥1000Mpa Lgnition Temperatur >560℃ Elongation at break 35% Acid and Alkali Resistance Strong
  37. 37. Plain Bar
  38. 38. Deformed Bar
  39. 39. 4o Grade Steel
  40. 40. 6o Grade Steel
  41. 41. 75 Grade Steel
  42. 42. Tendon Bar
  43. 43. Pre Stressing Post Tensioning Tendon Bar
  44. 44. Anchorage, Prestressed Tendon Bar
  45. 45. Welded Wire Mesh
  46. 46. Différent Types Of Tiles
  47. 47. Floor Tiles
  48. 48. Granaite Tiles
  49. 49. Acid Resistant Tiles
  50. 50. Carpet Tiles
  51. 51. Carpette Tiles
  52. 52. Concrète Tiles
  53. 53. Paving Block
  54. 54. Ceramic Tiles
  55. 55. Bath room Tiles
  56. 56. Wall Tiles
  57. 57. PPR Pipe
  58. 58. Plastic air conditioning engineerin pipe
  59. 59. Specifications • plastic air conditioning engineering pipe • 1.material :PVC • 2.color:transparent • 3.other color and material is available • Product name:plastic air conditioning engineering pipe Specific gravity : 1.38g/cm3 Moulding minification: 0.6-1.5% Moulding temperature: 160--190 Usage: which is widely used to be service pipe,such as waste pipe, air conditioning engineering pipe, Electrical Engineering pipe,drinking pipe, natatorium pipe and so
  60. 60. UPVC Pipe
  61. 61. Local UPVC Pipe
  62. 62. Stainless Steel Pipe
  63. 63. Clay Pipe
  64. 64. Mineral Wool Pipe
  65. 65. Plastic+Aluminium Pipe
  66. 66. Composite Pipe Fittings
  67. 67. UPVC Pipe Fittings
  68. 68. PPR Pipe Fittings
  69. 69. PPR Pipe Fittings
  70. 70. PPR Pipe Fittings
  71. 71. Band,Clamp,Gate valve,Reducer
  72. 72. Insulation,Clamp,Band,Tee
  73. 73. Soul Pipe Braket,Clamp,Band,Tee
  74. 74. pvc water suction/discharge hose
  75. 75. LPG Gas Hose
  76. 76. LPG Gas Hose
  77. 77. Fused garbage slag
  78. 78. Use • Presently, fused garbage slag is recycled for use as civil engineering and building material, such as aggregate for asphalt paving, road base material, and footpath blocks and sheets. But because the use is limited to nonstructural materials, only about 30 percent of the slag generated throughout Japan is being used. In 1999, about 126,000 tons of fused garbage slag was generated throughout Japan, and this is expected to increase almost eight times, to about 998,000 tons by 2014. The residue (ash) that is generated after garbage incineration is transported to a final treatment plant for disposal, but the shortage of these final treatment plants is worsening year by year, creating a problem with how to dispose of incineration residue. Also, due to the dioxin emission problem, more and more incineration plants are being built that incinerate the garbage at high temperatures, leading to a further increase in the amount of fused garbage slag. Therefore, more consideration is now being given to the recycling of this slag as a resource, by fusing the incinerator residue (ash) at temperatures over 1200 degrees, and turning it into slag (i.e. fused garbage slag).
  79. 79. Soil
  80. 80. Soil Classification
  81. 81. • Soil in Latin defined as the Earth or ground, also as the face or surface of the Earth. Furthermore soil can be defined in many different ways for different purposes, whereas in engineering could be too broad for its applications. Nevertheless, the best possible explanation would be as follows; • Any naturally occurring deposit forming the outer part of the Earth’s crust, consisting of an assemblage of discrete particles (usually mineral, sometimes with organic matter) that can be separated by gentle mechanical means, together with variable amounts of water and air.
  82. 82. • The study of soil mechanics covers the investigation, description, classification, testing and analysis of soils in determination of their inter-reaction with structures built in or upon them, or built with them. Their physical characteristics can be determined by experiment, and the application analysis methods enable these properties to be used to predict its likely behavior under defined working conditions. But unlike the other engineering materials such as concrete and metal, relatively control were exercised during manufacture, soil are naturally occurring materials, which more often than not to be used in its natural state.
  83. 83. Concrète Block
  84. 84. Sand making plant:
  85. 85. Sand making plant:
  86. 86. • Shanghai Shenbang manufactures various equipments for whole set of sand making plant, and provides superior technical support for customers. The whole sand making plant consists of vibrating feeder, jaw crusher, PCL sand making machine, vibrating screen, sand-washing machine, belt conveyor, electric control system, etc. We design different production lines ranging 50 t/h to 500 t/h. We have been researching the sand-making machine for years, and we have made it part of the production line. The whole set of sand-making production line designed by our company is suitable to crush the hard limestone, granite, basalt, gravel, slag, etc and artificially sand making machine for hydroelectric power, building material, high way, city construction, etc. Different models of equipments are combined to meet different customers’ different demands according to different craft requirements.
  87. 87. • Shanghai shenbang is a professional manufacturer of sand stone production line equipment with the output of less than 300 ton/h and provide the free installation and adjustment . • And the sand stone production line is defined as the output materials type with the final products of stone materials and manual sand ,which have been called the sand stone material production line .And during the road building and construction field ,it will often need the sand stone production line and this suit of sand stone production line equipment can satisfy the basic requirement of the required stone materials and manual sand .
  88. 88. Title
  89. 89. Plumbing Fittings
  90. 90. Title • Lorem ipsum dolor sit amet, consectetuer adipiscing elit. Vivamus et magna. Fusce sed sem sed magna suscipit egestas. • Lorem ipsum dolor sit amet, consectetuer adipiscing elit. Vivamus et magna. Fusce sed sem sed magna suscipit egestas.

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