�ݺ�ߣshows by User: AbdulMajid333

�ݺ�ߣshows by User: AbdulMajid333 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: AbdulMajid333 / Wed, 31 May 2023 16:15:11 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: AbdulMajid333 Report on "STRUCTURAL MECHANICAL PERFORMANCE EVALUATION AND HEALTH MONITORING" /slideshow/report-on-structural-mechanical-performance-evaluation-and-health-monitoring/258162657 fnalreportabdulmajids32002006w-230531161511-d508909f
he behaviour of reinforced concrete beams and slabs at service loads and outlines a reliable method for the calculation of deflection. To satisfy the serviceability limit states, a concrete structure must be serviceable and perform its intended function throughout its working life. Excessive deflection should not impair the function or be aesthetically unacceptable, and cracks should not be unsightly or wide enough to lead to durability problems. Design for the serviceability limit states involves making reliable predictions of the instantaneous and time-dependent deformation of the structure. ]]>
he behaviour of reinforced concrete beams and slabs at service loads and outlines a reliable method for the calculation of deflection. To satisfy the serviceability limit states, a concrete structure must be serviceable and perform its intended function throughout its working life. Excessive deflection should not impair the function or be aesthetically unacceptable, and cracks should not be unsightly or wide enough to lead to durability problems. Design for the serviceability limit states involves making reliable predictions of the instantaneous and time-dependent deformation of the structure. ]]> Wed, 31 May 2023 16:15:11 GMT /slideshow/report-on-structural-mechanical-performance-evaluation-and-health-monitoring/258162657 AbdulMajid333@slideshare.net(AbdulMajid333) Report on "STRUCTURAL MECHANICAL PERFORMANCE EVALUATION AND HEALTH MONITORING" AbdulMajid333 he behaviour of reinforced concrete beams and slabs at service loads and outlines a reliable method for the calculation of deflection. To satisfy the serviceability limit states, a concrete structure must be serviceable and perform its intended function throughout its working life. Excessive deflection should not impair the function or be aesthetically unacceptable, and cracks should not be unsightly or wide enough to lead to durability problems. Design for the serviceability limit states involves making reliable predictions of the instantaneous and time-dependent deformation of the structure. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/fnalreportabdulmajids32002006w-230531161511-d508909f-thumbnail.jpg?width=120&height=120&fit=bounds" /> he behaviour of reinforced concrete beams and slabs at service loads and outlines a reliable method for the calculation of deflection. To satisfy the serviceability limit states, a concrete structure must be serviceable and perform its intended function throughout its working life. Excessive deflection should not impair the function or be aesthetically unacceptable, and cracks should not be unsightly or wide enough to lead to durability problems. Design for the serviceability limit states involves making reliable predictions of the instantaneous and time-dependent deformation of the structure.

Report on "STRUCTURAL MECHANICAL PERFORMANCE EVALUATION AND HEALTH MONITORING" from Abdul Majid

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0 Structural Health Monitoring of a Cable-Supported Zhejiang Bridge /slideshow/structural-health-monitoring-of-a-cablesupported-zhejiang-bridge-258162571/258162571 abdulmajidshmbigreport-230531160737-8fab5004
The Zhijiang Bridge is a cable-stayed bridge built recently over the Hangzhou Qiantang River. It has an arched twin-tower space and a twin-cable plane structure. The integrated system of structural health monitoring and intelligent management for Zhijiang Bridge includes an information acquisition system, data management system, evaluation and decision-making system, and application service system. The monitoring components include the working environment of the bridge and various factors that affect bridge safety. The integrated system also includes a forecasting and decision-making module for real-time online evaluation, which provides warnings and makes decisions based on the monitoring information. The monitoring information, evaluation results, maintenance decisions, and warning information can be input simultaneously into the bridge monitoring center and traffic emergency center to share the monitoring data. The installation of long-term structural health monitoring (SHM) systems to long-span cable-supported bridges has become a trend to monitor loading conditions, assess performance, detect damage, and guide maintenance. SHM systems can be used to investigate highway loading, railway loading, wind characteristics, and temperature effects. ]]>
The Zhijiang Bridge is a cable-stayed bridge built recently over the Hangzhou Qiantang River. It has an arched twin-tower space and a twin-cable plane structure. The integrated system of structural health monitoring and intelligent management for Zhijiang Bridge includes an information acquisition system, data management system, evaluation and decision-making system, and application service system. The monitoring components include the working environment of the bridge and various factors that affect bridge safety. The integrated system also includes a forecasting and decision-making module for real-time online evaluation, which provides warnings and makes decisions based on the monitoring information. The monitoring information, evaluation results, maintenance decisions, and warning information can be input simultaneously into the bridge monitoring center and traffic emergency center to share the monitoring data. The installation of long-term structural health monitoring (SHM) systems to long-span cable-supported bridges has become a trend to monitor loading conditions, assess performance, detect damage, and guide maintenance. SHM systems can be used to investigate highway loading, railway loading, wind characteristics, and temperature effects. ]]> Wed, 31 May 2023 16:07:37 GMT /slideshow/structural-health-monitoring-of-a-cablesupported-zhejiang-bridge-258162571/258162571 AbdulMajid333@slideshare.net(AbdulMajid333) Structural Health Monitoring of a Cable-Supported Zhejiang Bridge AbdulMajid333 The Zhijiang Bridge is a cable-stayed bridge built recently over the Hangzhou Qiantang River. It has an arched twin-tower space and a twin-cable plane structure. The integrated system of structural health monitoring and intelligent management for Zhijiang Bridge includes an information acquisition system, data management system, evaluation and decision-making system, and application service system. The monitoring components include the working environment of the bridge and various factors that affect bridge safety. The integrated system also includes a forecasting and decision-making module for real-time online evaluation, which provides warnings and makes decisions based on the monitoring information. The monitoring information, evaluation results, maintenance decisions, and warning information can be input simultaneously into the bridge monitoring center and traffic emergency center to share the monitoring data. The installation of long-term structural health monitoring (SHM) systems to long-span cable-supported bridges has become a trend to monitor loading conditions, assess performance, detect damage, and guide maintenance. SHM systems can be used to investigate highway loading, railway loading, wind characteristics, and temperature effects. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/abdulmajidshmbigreport-230531160737-8fab5004-thumbnail.jpg?width=120&height=120&fit=bounds" /> The Zhijiang Bridge is a cable-stayed bridge built recently over the Hangzhou Qiantang River. It has an arched twin-tower space and a twin-cable plane structure. The integrated system of structural health monitoring and intelligent management for Zhijiang Bridge includes an information acquisition system, data management system, evaluation and decision-making system, and application service system. The monitoring components include the working environment of the bridge and various factors that affect bridge safety. The integrated system also includes a forecasting and decision-making module for real-time online evaluation, which provides warnings and makes decisions based on the monitoring information. The monitoring information, evaluation results, maintenance decisions, and warning information can be input simultaneously into the bridge monitoring center and traffic emergency center to share the monitoring data. The installation of long-term structural health monitoring (SHM) systems to long-span cable-supported bridges has become a trend to monitor loading conditions, assess performance, detect damage, and guide maintenance. SHM systems can be used to investigate highway loading, railway loading, wind characteristics, and temperature effects.

Structural Health Monitoring of a Cable-Supported Zhejiang Bridge from Abdul Majid

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0 DEVELOPMENT OF FATIGUE TESTING TECHNOLOGY FOR A FATIGUE ISSUE /slideshow/development-of-fatigue-testing-technology-for-a-fatigue-issue/258162411 fatigue-230531155709-62885e16
DEVELOPMENT OF FATIGUE TESTING TECHNOLOGY FOR A FATIGUE ISSUE (Case Study of The Crash of China Airlines Flight 611)]]>
DEVELOPMENT OF FATIGUE TESTING TECHNOLOGY FOR A FATIGUE ISSUE (Case Study of The Crash of China Airlines Flight 611)]]> Wed, 31 May 2023 15:57:09 GMT /slideshow/development-of-fatigue-testing-technology-for-a-fatigue-issue/258162411 AbdulMajid333@slideshare.net(AbdulMajid333) DEVELOPMENT OF FATIGUE TESTING TECHNOLOGY FOR A FATIGUE ISSUE AbdulMajid333 DEVELOPMENT OF FATIGUE TESTING TECHNOLOGY FOR A FATIGUE ISSUE (Case Study of The Crash of China Airlines Flight 611) <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/fatigue-230531155709-62885e16-thumbnail.jpg?width=120&height=120&fit=bounds" /> DEVELOPMENT OF FATIGUE TESTING TECHNOLOGY FOR A FATIGUE ISSUE (Case Study of The Crash of China Airlines Flight 611)

DEVELOPMENT OF FATIGUE TESTING TECHNOLOGY FOR A FATIGUE ISSUE from Abdul Majid

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0 Ultra High Performance Concrete(UHPC) /slideshow/ultra-high-performance-concreteuhpc/257750378 uhpcs32002006wabdulmajid-230509165501-b39cc8e7
It is a high strength, ductile material formulated by combining of cement, silica fume, quartz silica sand , crushed quartz, super plasticizer and metallic fibers ]]>
It is a high strength, ductile material formulated by combining of cement, silica fume, quartz silica sand , crushed quartz, super plasticizer and metallic fibers ]]> Tue, 09 May 2023 16:55:00 GMT /slideshow/ultra-high-performance-concreteuhpc/257750378 AbdulMajid333@slideshare.net(AbdulMajid333) Ultra High Performance Concrete(UHPC) AbdulMajid333 It is a high strength, ductile material formulated by combining of cement, silica fume, quartz silica sand , crushed quartz, super plasticizer and metallic fibers <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/uhpcs32002006wabdulmajid-230509165501-b39cc8e7-thumbnail.jpg?width=120&height=120&fit=bounds" /> It is a high strength, ductile material formulated by combining of cement, silica fume, quartz silica sand , crushed quartz, super plasticizer and metallic fibers

Ultra High Performance Concrete(UHPC) from Abdul Majid

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0 Structural Dynamics /slideshow/structural-dynamics-257750354/257750354 abdulmajid-s3200200w-230509165227-d8a0a7d1
Structural Dynamics]]>
Structural Dynamics]]> Tue, 09 May 2023 16:52:27 GMT /slideshow/structural-dynamics-257750354/257750354 AbdulMajid333@slideshare.net(AbdulMajid333) Structural Dynamics AbdulMajid333 Structural Dynamics <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/abdulmajid-s3200200w-230509165227-d8a0a7d1-thumbnail.jpg?width=120&height=120&fit=bounds" /> Structural Dynamics

Structural Dynamics from Abdul Majid

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0 Serviceability Limit State of Two-way Reinforced Concrete Slab Strengthened with Different Techniques /AbdulMajid333/serviceability-limit-state-of-twoway-reinforced-concrete-slab-strengthened-with-different-techniques serviceability-230509164746-41bc8389
The two primary structural design objectives are; strength and serviceability. Serviceability refers to the conditions under which a structure is still considered useful. It refers to conditions other than the structure strength that render the structures unusable. ]]>
The two primary structural design objectives are; strength and serviceability. Serviceability refers to the conditions under which a structure is still considered useful. It refers to conditions other than the structure strength that render the structures unusable. ]]> Tue, 09 May 2023 16:47:46 GMT /AbdulMajid333/serviceability-limit-state-of-twoway-reinforced-concrete-slab-strengthened-with-different-techniques AbdulMajid333@slideshare.net(AbdulMajid333) Serviceability Limit State of Two-way Reinforced Concrete Slab Strengthened with Different Techniques AbdulMajid333 The two primary structural design objectives are; strength and serviceability. Serviceability refers to the conditions under which a structure is still considered useful. It refers to conditions other than the structure strength that render the structures unusable. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/serviceability-230509164746-41bc8389-thumbnail.jpg?width=120&height=120&fit=bounds" /> The two primary structural design objectives are; strength and serviceability. Serviceability refers to the conditions under which a structure is still considered useful. It refers to conditions other than the structure strength that render the structures unusable.

Serviceability Limit State of Two-way Reinforced Concrete Slab Strengthened with Different Techniques from Abdul Majid

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0 Structural Health Monitoring of a Cable-Supported Zhejiang Bridge /slideshow/structural-health-monitoring-of-a-cablesupported-zhejiang-bridge/257290832 structuralhealthmonitoringofacable-supportedzhejiangbridge-230410151820-e9fbaa07
Structural Health Monitoring (SHM) aims to give, at every moment during the life of a structure, a diagnosis of the “state” of the constituent materials, of the different parts, and of the full assembly of these parts constituting the structure as a whole. The state of the structure must remain in the domain specified in the design, although this can be altered by normal aging due to usage, by the action of the environment, and by accidental events. Thanks to the time-dimension of monitoring, which makes it possible to consider the full history database of the structure, and with the help of Usage Monitoring, it can also provide a prognosis (evolution of damage, residual life, etc.). The Zhijiang Bridge is a cable-stayed bridge built recently over the Hangzhou Qiantang River. It has an arched twin-tower space and a twin-cable plane structure. The integrated system of structural health monitoring and intelligent management for Zhijiang Bridge includes an information acquisition system, data management system, evaluation and decision-making system, and application service system. The monitoring components include the working environment of and application service system. The monitoring components include the working environment of the bridge and various factors that affect bridge safety. The integrated system also includes a forecasting and decision-making module for real-time online evaluation, which provides warnings and makes decisions based on the monitoring information. The monitoring information, evaluation results, maintenance decisions, and warning information can be input simultaneously into the bridge monitoring center and traffic emergency center to share the monitoring data. The installation of long-term structural health monitoring (SHM) systems to long-span cable-supported bridges has become a trend to monitor loading conditions, assess performance, detect damage, and guide maintenance. SHM systems can be used to investigate highway loading, railway loading, wind characteristics, and temperature effects. ]]>
Structural Health Monitoring (SHM) aims to give, at every moment during the life of a structure, a diagnosis of the “state” of the constituent materials, of the different parts, and of the full assembly of these parts constituting the structure as a whole. The state of the structure must remain in the domain specified in the design, although this can be altered by normal aging due to usage, by the action of the environment, and by accidental events. Thanks to the time-dimension of monitoring, which makes it possible to consider the full history database of the structure, and with the help of Usage Monitoring, it can also provide a prognosis (evolution of damage, residual life, etc.). The Zhijiang Bridge is a cable-stayed bridge built recently over the Hangzhou Qiantang River. It has an arched twin-tower space and a twin-cable plane structure. The integrated system of structural health monitoring and intelligent management for Zhijiang Bridge includes an information acquisition system, data management system, evaluation and decision-making system, and application service system. The monitoring components include the working environment of and application service system. The monitoring components include the working environment of the bridge and various factors that affect bridge safety. The integrated system also includes a forecasting and decision-making module for real-time online evaluation, which provides warnings and makes decisions based on the monitoring information. The monitoring information, evaluation results, maintenance decisions, and warning information can be input simultaneously into the bridge monitoring center and traffic emergency center to share the monitoring data. The installation of long-term structural health monitoring (SHM) systems to long-span cable-supported bridges has become a trend to monitor loading conditions, assess performance, detect damage, and guide maintenance. SHM systems can be used to investigate highway loading, railway loading, wind characteristics, and temperature effects. ]]> Mon, 10 Apr 2023 15:18:19 GMT /slideshow/structural-health-monitoring-of-a-cablesupported-zhejiang-bridge/257290832 AbdulMajid333@slideshare.net(AbdulMajid333) Structural Health Monitoring of a Cable-Supported Zhejiang Bridge AbdulMajid333 Structural Health Monitoring (SHM) aims to give, at every moment during the life of a structure, a diagnosis of the “state” of the constituent materials, of the different parts, and of the full assembly of these parts constituting the structure as a whole. The state of the structure must remain in the domain specified in the design, although this can be altered by normal aging due to usage, by the action of the environment, and by accidental events. Thanks to the time-dimension of monitoring, which makes it possible to consider the full history database of the structure, and with the help of Usage Monitoring, it can also provide a prognosis (evolution of damage, residual life, etc.). The Zhijiang Bridge is a cable-stayed bridge built recently over the Hangzhou Qiantang River. It has an arched twin-tower space and a twin-cable plane structure. The integrated system of structural health monitoring and intelligent management for Zhijiang Bridge includes an information acquisition system, data management system, evaluation and decision-making system, and application service system. The monitoring components include the working environment of and application service system. The monitoring components include the working environment of the bridge and various factors that affect bridge safety. The integrated system also includes a forecasting and decision-making module for real-time online evaluation, which provides warnings and makes decisions based on the monitoring information. The monitoring information, evaluation results, maintenance decisions, and warning information can be input simultaneously into the bridge monitoring center and traffic emergency center to share the monitoring data. The installation of long-term structural health monitoring (SHM) systems to long-span cable-supported bridges has become a trend to monitor loading conditions, assess performance, detect damage, and guide maintenance. SHM systems can be used to investigate highway loading, railway loading, wind characteristics, and temperature effects. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/structuralhealthmonitoringofacable-supportedzhejiangbridge-230410151820-e9fbaa07-thumbnail.jpg?width=120&height=120&fit=bounds" /> Structural Health Monitoring (SHM) aims to give, at every moment during the life of a structure, a diagnosis of the “state” of the constituent materials, of the different parts, and of the full assembly of these parts constituting the structure as a whole. The state of the structure must remain in the domain specified in the design, although this can be altered by normal aging due to usage, by the action of the environment, and by accidental events. Thanks to the time-dimension of monitoring, which makes it possible to consider the full history database of the structure, and with the help of Usage Monitoring, it can also provide a prognosis (evolution of damage, residual life, etc.). The Zhijiang Bridge is a cable-stayed bridge built recently over the Hangzhou Qiantang River. It has an arched twin-tower space and a twin-cable plane structure. The integrated system of structural health monitoring and intelligent management for Zhijiang Bridge includes an information acquisition system, data management system, evaluation and decision-making system, and application service system. The monitoring components include the working environment of and application service system. The monitoring components include the working environment of the bridge and various factors that affect bridge safety. The integrated system also includes a forecasting and decision-making module for real-time online evaluation, which provides warnings and makes decisions based on the monitoring information. The monitoring information, evaluation results, maintenance decisions, and warning information can be input simultaneously into the bridge monitoring center and traffic emergency center to share the monitoring data. The installation of long-term structural health monitoring (SHM) systems to long-span cable-supported bridges has become a trend to monitor loading conditions, assess performance, detect damage, and guide maintenance. SHM systems can be used to investigate highway loading, railway loading, wind characteristics, and temperature effects.

Structural Health Monitoring of a Cable-Supported Zhejiang Bridge from Abdul Majid

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0 A presentation on concrete-Concrete Technology /slideshow/a-presentation-on-concreteconcrete-technology/122597391 apresentationonconcrete-181109185836
A very informative Presentation on Concrete Technology]]>
A very informative Presentation on Concrete Technology]]> Fri, 09 Nov 2018 18:58:36 GMT /slideshow/a-presentation-on-concreteconcrete-technology/122597391 AbdulMajid333@slideshare.net(AbdulMajid333) A presentation on concrete-Concrete Technology AbdulMajid333 A very informative Presentation on Concrete Technology <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/apresentationonconcrete-181109185836-thumbnail.jpg?width=120&height=120&fit=bounds" /> A very informative Presentation on Concrete Technology

A presentation on concrete-Concrete Technology from Abdul Majid

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0 Survey Camp 2016-A Journey of Engineering /slideshow/survey-camp-2016a-journey-of-engineering/122596275 surveycamp2016-181109184805
This file was prepared for the purpose to highlights that what we had done in Survey camp.]]>
This file was prepared for the purpose to highlights that what we had done in Survey camp.]]> Fri, 09 Nov 2018 18:48:05 GMT /slideshow/survey-camp-2016a-journey-of-engineering/122596275 AbdulMajid333@slideshare.net(AbdulMajid333) Survey Camp 2016-A Journey of Engineering AbdulMajid333 This file was prepared for the purpose to highlights that what we had done in Survey camp. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/surveycamp2016-181109184805-thumbnail.jpg?width=120&height=120&fit=bounds" /> This file was prepared for the purpose to highlights that what we had done in Survey camp.

Survey Camp 2016-A Journey of Engineering from Abdul Majid

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0 Indirect Speech-English Grammar /slideshow/indirect-speechenglish-grammar/122594854 indirectspeech-181109183528
This Presentation is all about English grammar especially Indirect Speech]]>
This Presentation is all about English grammar especially Indirect Speech]]> Fri, 09 Nov 2018 18:35:28 GMT /slideshow/indirect-speechenglish-grammar/122594854 AbdulMajid333@slideshare.net(AbdulMajid333) Indirect Speech-English Grammar AbdulMajid333 This Presentation is all about English grammar especially Indirect Speech <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/indirectspeech-181109183528-thumbnail.jpg?width=120&height=120&fit=bounds" /> This Presentation is all about English grammar especially Indirect Speech

Indirect Speech-English Grammar from Abdul Majid

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0 Solid waste disposal and treatment /slideshow/solid-waste-disposal-and-treatment/84567724 solidwastedisposaltraetment-171220200900
The presentation is about methods of Solid waste disposal and recycling]]>
The presentation is about methods of Solid waste disposal and recycling]]> Wed, 20 Dec 2017 20:09:00 GMT /slideshow/solid-waste-disposal-and-treatment/84567724 AbdulMajid333@slideshare.net(AbdulMajid333) Solid waste disposal and treatment AbdulMajid333 The presentation is about methods of Solid waste disposal and recycling <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/solidwastedisposaltraetment-171220200900-thumbnail.jpg?width=120&height=120&fit=bounds" /> The presentation is about methods of Solid waste disposal and recycling

Solid waste disposal and treatment from Abdul Majid

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0 Stresses and Factor of Safety /AbdulMajid333/concept-of-demand-and-capacity-84018379 conceptofdemandandcapacity-171213172854
Concept of demand and capacity for structures ]]>
Concept of demand and capacity for structures ]]> Wed, 13 Dec 2017 17:28:53 GMT /AbdulMajid333/concept-of-demand-and-capacity-84018379 AbdulMajid333@slideshare.net(AbdulMajid333) Stresses and Factor of Safety AbdulMajid333 Concept of demand and capacity for structures <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/conceptofdemandandcapacity-171213172854-thumbnail.jpg?width=120&height=120&fit=bounds" /> Concept of demand and capacity for structures

Stresses and Factor of Safety from Abdul Majid

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0 Hydrometer Analysis for Soil (Sedimentation) /slideshow/hydrometer-analysis-for-soil-sedimentation/84017682 abdulmajidsoilmechanicssedimentation-171213171322
Grain size distribution by size through Hydrometer Analysis]]>
Grain size distribution by size through Hydrometer Analysis]]> Wed, 13 Dec 2017 17:13:22 GMT /slideshow/hydrometer-analysis-for-soil-sedimentation/84017682 AbdulMajid333@slideshare.net(AbdulMajid333) Hydrometer Analysis for Soil (Sedimentation) AbdulMajid333 Grain size distribution by size through Hydrometer Analysis <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/abdulmajidsoilmechanicssedimentation-171213171322-thumbnail.jpg?width=120&height=120&fit=bounds" /> Grain size distribution by size through Hydrometer Analysis

Hydrometer Analysis for Soil (Sedimentation) from Abdul Majid

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0 Shear Force and Bending Moment /slideshow/shear-force-and-bending-moment-84017496/84017496 abdulmajidshearforceandbendingmoment-171213170943
Shear force and bending moment diagrams for a beam]]>
Shear force and bending moment diagrams for a beam]]> Wed, 13 Dec 2017 17:09:43 GMT /slideshow/shear-force-and-bending-moment-84017496/84017496 AbdulMajid333@slideshare.net(AbdulMajid333) Shear Force and Bending Moment AbdulMajid333 Shear force and bending moment diagrams for a beam <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/abdulmajidshearforceandbendingmoment-171213170943-thumbnail.jpg?width=120&height=120&fit=bounds" /> Shear force and bending moment diagrams for a beam

Shear Force and Bending Moment from Abdul Majid

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