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IS 804 ( IS : 804 - 1967) Specification For Rectangular Pressed Steel Tanks

Written By admin on Monday, 28 May 2012 | 21:24


IS 804 ( IS : 804 - 1967)

Specification For Rectangular Pressed Steel Tanks

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IRC 84 - 1983 Code Of Practice for Curing of Cement Concrete Pavements

IRC 84 - 1983

IRC 84-1983 ( Code Of Practice for Curing of Cement Concrete Pavements)
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IRC 5 - 1998

IRC 5 - 1998

IRC 5 - 1998 ( Standard Specifications and Code of Practice For Road Bridges)
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IRC 83 - 2002

IRC 83 - 2002

IRC - 83 - 2002 (CODE OF PRACTICE FOR ROAD BRIDGES)
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IRC 18 2000 Prestressed concrete road bridges

IRC 18 2000

Design of Prestressed concrete road bridges

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IRC-SP-41 Design-of-at-Grade-Intersection in Rural and Urban Areas

IRC-SP-41
Design-of-at-Grade-Intersection in Rural and Urban Areas
IRC-SP-41
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IS 3370 Part 4

IS 3370 Part 4
Code of Practice for Concrete Structures for the Storage of Liquids
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IS 3370 Part 3

IS 3370 Part 3
Code of Practice for Concrete Structures for the Storage of Liquids

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IS 3370 Part 2

IS 3370 Part 2
Code of Practice for Concrete Structures for the Storage of Liquids
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IS 3370 Part 1 Concrete Structures for the Storage of Liquids

IS 3370 Part 1
Code of Practice for Concrete Structures for the Storage of Liquids
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IS : 1173 - 1978

IS : 1173 - 1978
Specification for Hot Rolled and Slit Steel TEE Bars
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IS:6441 (part 5)

IS:6441 (part 5)
Methods of Test For Autoclaved Cellular Concrete Products
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IS:6441 (part 4)

IS:6441 (part 4)
Methods of Test For Autoclaved Cellular Concrete Products
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IS:6441 (part 2)

IS:6441 (part 2)
Methods of Test For Autoclaved Cellular Concrete Products
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IS:6441 (part 1)

IS:6441 (part 1)
Methods of Test For Autoclaved Cellular Concrete Products
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IS:4457-1982

IS:4457-1982
SPECIFICATIONS FOR CERAMIC UNGLAZED VITREOUS ACID RESISTANCE TILES
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IS SP:50-1999

IS SP:50-1999
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IS 10262: 1982

IS 10262: 1982
RECOMMENDED GUIDELINES FOR CONCRETE MIX DESIGN
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IS : 4756 FOR TUNNEL

IS : 4756
SAFETY CODE FOR TUNNELING WORK
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IRC SP:20 Code book

IRC SP:20
MANUAL ON ROUTE LOCATION DESIGN CONSTRUCTION AND MAINTAINANCE OF RURAL ROADS
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IRC SP : 72 Code book

                                                                          IRC SP : 72
RECOMMENDED PRACTICE FOR USE AND UPKEEP OF EQUIPMENT, TOOLS AND APPLIANCES FOR BITUMINOUS PAVEMENT CONSTRUCTION
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IRC : 24 : 2001 STANDARD SPECIFICATIONS AND CODE OF PRACTICE FOR ROAD BRIDGES

Written By admin on Saturday, 26 May 2012 | 10:49

IRC : 24 : 2001
STANDARD SPECIFICATIONS AND CODE OF PRACTICE FOR ROAD BRIDGES
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IRC 35 : 1997 CODE OF PRACTICE FOR ROAD MARKINGS

IRC 35 : 1997
CODE OF PRACTICE FOR ROAD MARKINGS

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IS 277: 2003 GALVANIZED STEEL SHEETS

IS 277: 2003
GALVANIZED STEEL SHEETS
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IS 456:2000 code book

IS 456:2000
                                         PLAIN AND REINFORCED CONCRETE-CODE OF PRACTICE
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IS 1893 : 2002 IS code book

IS 1893 : 2002 IS code book 
CRITERIA FOR EARTHQUAKE RESISTANT DESIGN OF STRUCTURES
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Beams - loading, shear and BM relationships

Written By admin on Thursday, 24 May 2012 | 23:48

Lecture 15 Mechanics of solids


Contents of the video:

  1. Beams - loading, shear and BM relationships
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Beams - BMD & SFD

Lecture 14 Mechanics of solids


Contents of the video:
  1. Beams - BMD & SFD
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Beams - example 1

Lecture 13 Mechanics of solids


Contents of the video:
  1. Beams - example 1
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Trusses - Method of Sections

Lecture 12 Mechanics of solids 


Contents of the video:

  1. Trusses - Method of Sections
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Trusses - additional discussions

Lecture 11 Mechanics of solids


Contents of the video:

  1. Trusses - additional discussions
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Stability of Structural systems

Lecture 10 Mechanics of solids


Contents of the video:

  1. Stability of Structural systems
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Analysis of Truss Systems

Lecture 09 Mechanics of solids


Contents of the video:

  1. Analysis of Truss Systems
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Trusses - Axial members

Lecture 08 Mechanics of solids


Contents of the video:

  1. Trusses - Axial members
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Types of 1-D Structural Elements

Lecture 08 Mechanics of solids


Contents of the video:

  1. Types of 1-D Structural Elements
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Structural Systems with rigid bodies

Lecture 06 Mechanics of solids


Contents of the video:

  1. Structural Systems with rigid bodies
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Rigid Body Statics Example 2

Lecture 05 Mechanics of solids


Contents of the video:

  1. Rigid Body Statics Example 2
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Planar rigid body Statics Example 1

Lecture 04 Mechanics of solids


Contents of the video:

  1. Planar rigid body Statics Example 1
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Equations of Equilibrium

Lecture 03 Mechanics of solids


Contents of the video:

  1. Equations of Equilibrium
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Degrees of freedom

Lecture 02 Mechanics of solids


Contents of the video:

  1. Degrees of freedom
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Rectification and Restoration

Lecture 12 Modern Surveying Techniques


Contents of the video:

  1. Rectification and Restoration
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Statistical Evaluation of RS Data

Lecture 11 Modern Surveying Techniques


Contents of the video:

  1. Statistical Evaluation of RS Data
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Image Interpretation

Lecture 10 Modern Surveying Techniques


Contents of the video:

  1. Image Interpretation
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Sensors and Platform II

Lecture 09 Modern Surveying Techniques


Contents of the video:

  1.  Sensors and Platform


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Sensors and Platform

Lecture 08 Modern Surveying Techniques


Contents of the video:

  1. Sensors and Platform
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Electromagnetic Spectrum

Lecture 07 Modern Surveying Techniques


Contents of the video:

  1. Electromagnetic Spectrum
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Remote Sensing Introduction

Lecture 06 Modern Surveying Techniques


Contents of the video:

  1.  Remote Sensing Introduction
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GPS Application

Lecture 05 Modern Surveying Techniques


Contents of the video:

  1. GPS Application
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GPS Solutions and Errors

Lecture 04  Modern Surveying Techniques


Contents of the video:

  1. GPS Solutions and Errors
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GPS Positioning Methods

Lecture 03 Modern Surveying Techniques


Contents of the video:

  1. GPS Positioning Methods



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Introduction to Global Positioning System

Lectures 02 Modern Surveying Techniques


Contents of the video:

  1. Introduction to Global Positioning System
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Geographic Information System An Introduction

Lecture 01 Modern Surveying Techniques


Contents of the video:

  1. Geographic Information System An Introduction
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Planar Rigid Body

Lecture 01 Mechanics of solids


Contents of the video:

  1. Planar Rigid Body
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Deflection of RC Beams

Lecture 30 Design of Reinforced Concrete Structures

Contents of the video:

  1. Deflection of RC Beams
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Design of RC Slender Columns

Lecture 29 Design of Reinforced Concrete Structures


Contents of the video:

  1. Effective Length Ratios For A Column In A Frame With No Sway
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Design for Torsion Part - II

Lecture 28 Design of Reinforced Concrete Structures

Contents of the video:

  1. Design of torsion
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Design for Torsion

Lecture 27 Design of Reinforced Concrete Structure


Contents of the video:

  1. Design of torsion
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Design of Staircases

Lecture 26 Design of Reinforced Concrete Structures



Contents of the video:
  1. Design of staircase
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Design of Footings Part - II

Lecture 25 Design of Reinforced Concrete Structures


Contents of the video:

  1. Footing design
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Design of Footings Part - I

Lecture 24 Design of Reinforced Concrete Structures 


Contents of the video:

  1. Footing
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Design of Columns Part - V

Lecture 23 Design of Reinforced Concrete Structures


Contents of the video:


  1. Diagram
  2. Equations

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Design of Columns Part - IV

Leccture 22 Design of Reinforced Concrete Structures


Contents of the video:


  1. Diagram
  2. Graph
  3. Diagram

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Design of Columns Part - III

Lecture 21 Design of Reinforced Concrete Structures


Contents of the video:


  1. Design Aids
  2. Diagram

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Design of Columns Part - II

Lecture 20 Design of Reinforced Concrete Structures


Contents of the video:

  1. Assumptions
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Design of Columns Part - I

Lecture 19 Design of Reinforced Concrete Structures


Contents of the video:


  1. Limit State of Collapse
  2. Plane sections normal to the axis
  3. Assumptions
  4. Assumptions (contd..)
  5. Assumptions

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Design of Slabs Part - V

Lecture 18 Design of Reinforced Concrete Structures


Contents of the video:

  1. Diagram
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Design of Slabs Part - IV

Lecture 17 Design of Reinforced Concrete Structures


Contents of the video:

  1. Design of slabs
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Design of Slabs Part - III

Lecture 16 Design of Reinforced Concrete Structures


Content of the video:

  1. design of slabs
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Design of Slabs Part - II

Written By admin on Wednesday, 23 May 2012 | 06:53

Lecture 15 Design of Reinforced Concrete Structures


Contents of the video:

  1. Table 12 : Bending Moment Coefficients
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Design of Slabs Part - 1

Lecture 14 Design of Reinforced Concrete Structures



Contents of the video:

  1. Effective Span
  2. . Continuous Beam or Slab
  3. . Cantilever
  4. . Frames
  5. Moment and Shear Coefficients for Continuous Beams
  6. Table 12 : Bending Moment Coefficients
  7. Table 12 Bending Moment Coefficients
  8. Tabel 13 : Shear Force Coefficients
  9. Table 13 Shear Force Coefficients
  10. . Clause 22.5.1: IS 4561:2000
  11. Clause 22.5.2 : Beams or Slabs over Free End Suppots
  12. Clause 22.5.2 Beams or Slabs over Free End Supports
  13. Clause 22.5.2 : Beams or Slabs over
  14. Reinforced Concrete Solid Slabs
  15. Loading on slabs for buildings
  16. Concrete Cover
  17. Control of Deflection
  18. The vertical deflection limits may generally be assumed to be satisfied provided that the span to depth ratios are not greater than the values obtained as below:
  19. For spans above 10m, the basic values may be multiplied by 10/span in meters, except for cantilever in which case deflection calculation should be made
  20. Depending on the area and the stress of steel for tension reinforcement, the basic values shall be modified by Multipling with the modification factor obtained as per Fig.4 (Is456 : 2000)36:19
  21. Depending on the area and the stress of steel for tension reinforcement, the basic values shall be modified by Multiplying with the modification factor obtained as per Fig.4 (IS456 : 2000)
  22. Depkending on the area of
  23. Depending on the area of
  24. For flanged beams, the basic values be
  25. Diagram
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Design for Shear (Contd)

Lecture 13 Design of Reinforced Concrete Structures



Contents of the video:

  1. Diagram
  2. Loading
  3. Diagram
  4. Effective width of Flange



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Design for Shear

Lecture 12 Design of Reinforced Concrete Structures



Contents of the video:


  1. Shear and diagonal stresses
  2. Analysis of shear in tapered beam
  3. Diagram

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Limit State of Collapse Shear

Lecture 11 Design of Reinforced Concrete Structures



Lecture 11
Contents of the video:

  1. Shear and diagonal stresses
  2. Tension in Beams
  3. Shear failure : Shear tension
  4. Shear stress distribution in RCC beams
  5. Nominal shear stress
  6. Vu = shear force due to design loads
  7. Assumed crack
  8. The resistance in concrete is due to the combined effect of three factors20:47
  9. Part of Table 19
  10. Table 20 Maximum Shear Stress,
  11. Maximum spacing of shear reinforcement

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Design of Doubly Reinforced Beam Flexure

Lecture 10 Design of Reinforced Concrete Structures



Lecture 10
Contents of the video:

  1. L Beam
  2. Clause 23.1.1 of IS 456:2000
  3. b) If the main reinforcement of the slab is
  4. Effective width of Flange9:01
  5. Case 1: NA within Flange
  6. Case 2: NA Below the Flange

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Design of Doubly Reinforced Beam Flexure - II

Lecture 09 Design of Reinforced Concrete Structures


Contents of the video:

  1. 23A Cold Worked Deformed Bar
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Design of Doubly Reinforced Beam Flexure - I

Lecture 08 Design of Reinforced Concrete Structures



Lecture 08
Contents of the video:

  1. Diagram
  2. FIG. 21 STRESS - STRAIN CURVE FOR CONCRETE
  3. 23A Cold Worked Deformed Bar
  4. 23A Cold Worked Deformed

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Limit State of Collapse Flexure - II

Lecture 07 Design of Reinforced Concrete Structures



Lecture 07
Contents of the video:

  1. Diagram
  2. PERCENTAGE OF LIMITING STEEL AREAS FOR BALANCED DESIGN
  3. Diagram

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Limit State of Collapse Flexure

Lecture 06 Design of Reinforced Concrete Structures



Lecture 06
Contents of the video:

  1. Assumptions
  2. Assumptions (contd..)
  3. FIG. 21 STRESS - STRAIN CURVE FOR CONCRETE
  4. 23A Cold Worked Deformed Bar
  5. 23B STEEL BAR WITH DEFINITE YIELD POINT
  6. LIMITING VALUES OF x/d
  7. k2 (x) is the distance of the
  8. The maximum or limiting value of compression
  9. VALUES OF CONSTANTS FOR MAXIMUM COMPRESSION BLOCK
  10. Balanced Sections
  11. Underreinforced sections
  12. Overreinforced sections
  13. PERCENTAGE OF LIMITING STEEL AREAS FOR BALANCED DESIGN

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Working Stress Method (Contd)

Lecture 05 Design of Reinforced Concrete Structures



Contents of the video:

  1. Assumptions
  2. Direct Tension
  3. Permissible Stresses (N/mm)
  4. Equation
  5. Balanced Sections
  6. Equation
  7. Balanced Sections
  8. Under - reinforced Section10:36
  9. Over - reinforced Sections
  10. Equation
  11. Beam Factors (for Fe25O)
  12. Beam Factors (for Fe415)
  13. Percentage of Tensile Reinforcement for Balanced Section

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Working Stress Method

Lecture 04 Design of Reinforced Concrete Structures



Lecture 04
Contents of the video

  1. Different Steps of Construction



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Different Methods of Design of Reinforced Concrete Structures

Lecture-3 RCS


Contents of the video:

  1. Different Methods of Design
  2. Working Stress Method
  3. Assumptions
  4. Factor of safety
  5. Major defects
  6. Load Factor Method
  7. Reasons towards
  8. Design for
  9. Limit State Method
  10. Limit states may be classified
  11. Characteristic Strength
  12. Characteristic Load
  13. Different Loads
  14. Computer Program
  15. Partial Safety Factors for Load48:53
  16. Values of partial safety factors for Load (Ultimate Limit State)



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Reinforced Concrete Structures-Materials




Lecture 02
Contents of the video

  1. Concrete is made by mixing
  2. Workability
  3. ASTM definition of workability
  4. ACI Definition of workability
  5. Consistency
  6. Measurement of workability
  7. Consistency
  8. Measurement of workability
  9. Slump Test
  10. Description of Workability
  11. Durability
  12. Compressive Strength
  13. Tensile Strength
  14. Compressive Strength
  15. Tensile Strength
  16. Biaxial Strength
  17. Creep
  18. Slump Test44:00
  19. Creep
  20. Shrinkage
  21. Creep

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Design of Reinforced Concrete Structures-INTRODUCTION-1


Introduction - I (55:08)
Contents of the video
1.Design of
2.What is concrete?
3.Indian Standard
4.Codes BOOKS
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What is Civil Engineering?


Civil engineering is a professional engineering discipline that deals with the design, construction, and maintenance of the physical and naturally built environment, including works like roads, bridges, canals, dams, and buildings. Civil engineering is the oldest engineering discipline after military engineering, and it was defined to distinguish non-military engineering from military engineering. It is traditionally broken into several sub-disciplines including environmental engineering, geotechnical engineering, structural engineering, transportation engineering, municipal or urban engineering, water resources engineering, materials engineering, coastal engineering, surveying, and construction engineering. Civil engineering takes place on all levels: in the public sector from municipal through to national governments, and in the private sector from individual homeowners through to international companies.
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