Looking for an innovative and reliable geogrid solution? Singhal Industries is a leading manufacturer of high quality geogrids. Our products are used in a wide range of applications, from infrastructure projects to soil reinforcement. With over 20 years of experience, we are proud to offer our customers the best products and services. Learn more about our company and products today.
https://www.singhalglobal.com/products/geogrid
“Study of Geosynthetics and use of Non – Woven Green Geocomposite Blanket for...IRJET Journal
This document discusses geosynthetics and their use in erosion control and slope protection for embankments. It defines geosynthetics as versatile materials made from natural or synthetic fibers that are used in geotechnical, marine, and environmental engineering to improve soil properties. Non-woven geocomposite blankets can be used as erosion control elements for embankment slopes. The document outlines the different types of geosynthetics and their functions, which include reinforcement, separation, filtration, drainage, barriers, and erosion control. It focuses on how geotextiles, geocells, and geocomposite blankets are mainly used for erosion control on slopes of railways, highways, and landfills to protect against erosion
This document summarizes a seminar presentation on geosynthetics. Geosynthetics are synthetic materials used with soil in civil engineering projects to improve properties. They have various forms and are used in applications like roads, dams, and landfills. The presentation discusses why geosynthetics are used for ground stabilization, pavements, erosion control, retaining walls, and foundations. It then classifies and describes different types of geosynthetics - geotextiles, geogrids, geomembranes, geosynthetic clay liners, geofoam, and geocomposites. Examples of geosynthetic usage in India are presented. The conclusion advocates for mandatory geosynthetic use in India for
Geosynthetics are man-made materials made from polymers that are used with soil and rock in civil engineering projects to improve their behavior. There are many types of geosynthetics that each have different properties and uses, including geotextiles, geogrids, geonets, geomembranes, geosynthetic clay liners, geocells, geofoam, and geocomposites. Common applications include roads, embankments, retaining walls, reservoirs, landfills, erosion control, and more. Each type has distinct characteristics that make it suitable for functions like separation, reinforcement, filtration, drainage, and containment.
Geosynthetics- Types, and their use in Retaining WallsAbhishek Bharti
All you need to know about Geosynthetics, its types, uses etc. their uses in retaining walls have been focused...
The Best Presentation you can possibly find on Geosynthetics.
Geosynthetics in civil engineering (multifunctional uses of geosynthetics in ...Super Arc Consultant
This document discusses the use of geosynthetics in civil engineering. It begins with an introduction to geosynthetics, describing the different types including geotextiles, geogrids, geonets, geomembranes, geosynthetic clay liners, geopipes, geocomposites, and geocells. It then discusses the key functions of geosynthetics like separation, drainage, filtration, fluid barriers, reinforcement, and protection. The document provides examples of applications for geosynthetics in areas like pavements, retaining walls, drainage, erosion control, embankments, and reinforced foundations. It concludes by stating the benefits of geosynthetics like using local materials, employing un
Geo-synthetics are synthetic polymer products used in construction to provide separation, drainage, filtration, reinforcement and containment functions. They include planar structures like geotextiles, geomembranes and geogrids as well as three-dimensional structures like geocells. Common geo-synthetic materials are polypropylene, HDPE, polyester and PVC. They are widely used in roads, drainage works, erosion control, retaining walls and reinforced soil structures to provide long-term, cost-effective solutions with environmental benefits like pollution control and resource efficiency.
124
مبادرة
#تواصل_تطوير
المحاضرة ال 124 من المبادرة مع
دكتور/ محمد الحسين
بعنوان
المركبات البوليمرية الجيوتقنية و تطبيقاتها في الهندسة المدنية
Geosynthetics in Civil Engineering (Multifunctional uses of geosynthetics in civil engineering)
التاسعة مساء توقيت القاهرة
العاشرة. مساء توقيت مكة المكرمة
السبت 28 أغسطس 2021
وذلك عبر تطبيق زووم
https://us02web.zoom.us/meeting/register/tZwvdeiurjwjHdKFHkNf1hWghC8-OT7ZB2lZ
علما ان هناك بث مباشر للمحاضرة على القنوات الخاصة بجمعية المهندسين المصريين
ونأمل أن نوفق في تقديم ما ينفع المهندس ومهمة الهندسة في عالمنا العربي
والله الموفق
للتواصل مع إدارة المبادرة عبر قناة التليجرام
https://t.me/EEAKSA
ومتابعة المبادرة والبث المباشر عبر نوافذنا المختلفة
رابط اللينكدان والمكتبة الالكترونية
https://www.linkedin.com/company/eeaksa-egyptian-engineers-association/
رابط قناة التويتر
https://twitter.com/eeaksa
رابط قناة الفيسبوك
https://www.facebook.com/EEAKSA
رابط قناة اليوتيوب
https://www.youtube.com/user/EEAchannal
رابط التسجيل العام للمحاضرات
https://forms.gle/vVmw7L187tiATRPw9
ملحوظة : توجد شهادات حضور مجانية لمن يسجل فى رابط التقيم اخر المحاضرة.
“Study of Geosynthetics and use of Non – Woven Green Geocomposite Blanket for...IRJET Journal
This document discusses geosynthetics and their use in erosion control and slope protection for embankments. It defines geosynthetics as versatile materials made from natural or synthetic fibers that are used in geotechnical, marine, and environmental engineering to improve soil properties. Non-woven geocomposite blankets can be used as erosion control elements for embankment slopes. The document outlines the different types of geosynthetics and their functions, which include reinforcement, separation, filtration, drainage, barriers, and erosion control. It focuses on how geotextiles, geocells, and geocomposite blankets are mainly used for erosion control on slopes of railways, highways, and landfills to protect against erosion
This document summarizes a seminar presentation on geosynthetics. Geosynthetics are synthetic materials used with soil in civil engineering projects to improve properties. They have various forms and are used in applications like roads, dams, and landfills. The presentation discusses why geosynthetics are used for ground stabilization, pavements, erosion control, retaining walls, and foundations. It then classifies and describes different types of geosynthetics - geotextiles, geogrids, geomembranes, geosynthetic clay liners, geofoam, and geocomposites. Examples of geosynthetic usage in India are presented. The conclusion advocates for mandatory geosynthetic use in India for
Geosynthetics are man-made materials made from polymers that are used with soil and rock in civil engineering projects to improve their behavior. There are many types of geosynthetics that each have different properties and uses, including geotextiles, geogrids, geonets, geomembranes, geosynthetic clay liners, geocells, geofoam, and geocomposites. Common applications include roads, embankments, retaining walls, reservoirs, landfills, erosion control, and more. Each type has distinct characteristics that make it suitable for functions like separation, reinforcement, filtration, drainage, and containment.
Geosynthetics- Types, and their use in Retaining WallsAbhishek Bharti
All you need to know about Geosynthetics, its types, uses etc. their uses in retaining walls have been focused...
The Best Presentation you can possibly find on Geosynthetics.
Geosynthetics in civil engineering (multifunctional uses of geosynthetics in ...Super Arc Consultant
This document discusses the use of geosynthetics in civil engineering. It begins with an introduction to geosynthetics, describing the different types including geotextiles, geogrids, geonets, geomembranes, geosynthetic clay liners, geopipes, geocomposites, and geocells. It then discusses the key functions of geosynthetics like separation, drainage, filtration, fluid barriers, reinforcement, and protection. The document provides examples of applications for geosynthetics in areas like pavements, retaining walls, drainage, erosion control, embankments, and reinforced foundations. It concludes by stating the benefits of geosynthetics like using local materials, employing un
Geo-synthetics are synthetic polymer products used in construction to provide separation, drainage, filtration, reinforcement and containment functions. They include planar structures like geotextiles, geomembranes and geogrids as well as three-dimensional structures like geocells. Common geo-synthetic materials are polypropylene, HDPE, polyester and PVC. They are widely used in roads, drainage works, erosion control, retaining walls and reinforced soil structures to provide long-term, cost-effective solutions with environmental benefits like pollution control and resource efficiency.
124
مبادرة
#تواصل_تطوير
المحاضرة ال 124 من المبادرة مع
دكتور/ محمد الحسين
بعنوان
المركبات البوليمرية الجيوتقنية و تطبيقاتها في الهندسة المدنية
Geosynthetics in Civil Engineering (Multifunctional uses of geosynthetics in civil engineering)
التاسعة مساء توقيت القاهرة
العاشرة. مساء توقيت مكة المكرمة
السبت 28 أغسطس 2021
وذلك عبر تطبيق زووم
https://us02web.zoom.us/meeting/register/tZwvdeiurjwjHdKFHkNf1hWghC8-OT7ZB2lZ
علما ان هناك بث مباشر للمحاضرة على القنوات الخاصة بجمعية المهندسين المصريين
ونأمل أن نوفق في تقديم ما ينفع المهندس ومهمة الهندسة في عالمنا العربي
والله الموفق
للتواصل مع إدارة المبادرة عبر قناة التليجرام
https://t.me/EEAKSA
ومتابعة المبادرة والبث المباشر عبر نوافذنا المختلفة
رابط اللينكدان والمكتبة الالكترونية
https://www.linkedin.com/company/eeaksa-egyptian-engineers-association/
رابط قناة التويتر
https://twitter.com/eeaksa
رابط قناة الفيسبوك
https://www.facebook.com/EEAKSA
رابط قناة اليوتيوب
https://www.youtube.com/user/EEAchannal
رابط التسجيل العام للمحاضرات
https://forms.gle/vVmw7L187tiATRPw9
ملحوظة : توجد شهادات حضور مجانية لمن يسجل فى رابط التقيم اخر المحاضرة.
Geotextiles are technical textiles designed for use in civil engineering projects to provide separation, filtration, reinforcement, protection or drainage. There are two main types - woven and nonwoven. Woven geotextiles are strong, UV resistant and prevent biological degradation. Nonwoven geotextiles are ideal for roads, buildings and landfills. Geotextiles perform basic functions like filtration, separation, reinforcement and drainage. They are used in applications such as roads, bridges, dams and retaining walls to improve soil strength at a lower cost than traditional methods. Geotextiles can also replace hydroseeding on slopes prone to erosion.
This document summarizes the various types of geosynthetics, their properties, and applications. Geosynthetics include geotextiles, geogrids, geonets, geomembranes, geocomposites, geocells, and geofoam. Each type has different characteristics making it suitable for various civil engineering purposes like soil reinforcement, separation, drainage, and containment. Common applications include roads, retaining walls, soil erosion control, and landfill construction. The document provides details on the material composition, manufacturing process, and functions of each geosynthetic type.
This document reviews geosynthetics, which are synthetic materials used in civil engineering projects. There are eight main types of geosynthetics, including geotextiles, geogrids, and geomembranes. Geosynthetics have a variety of functions and applications, such as soil reinforcement, filtration, drainage, separation, and forming barriers. They have advantages like being economical and allowing faster construction. However, their long-term performance depends on factors like proper additives and quality control during manufacturing and installation. Overall, geosynthetics can strengthen soils and provide cost-effective solutions for various civil engineering construction needs.
This document provides definitions and information about geosynthetics and fiber textiles. It defines geosynthetics as synthetic products used to stabilize terrain that are generally polymeric products used to solve civil engineering problems. It discusses the main types of geosynthetics including geotextiles, geogrids, geomembranes, geosynthetic clay liners, and more. It provides details on various geosynthetic materials, their constituents, applications, advantages, and disadvantages. It also discusses fiber textiles and their properties for making fabrics.
This document discusses the applications of geotextiles. It provides an introduction to geotextiles and discusses the materials used to make them such as polypropylene and polyester. It then describes the different types of geotextiles including woven, non-woven and knitted. The document outlines various applications of geotextiles such as in roadworks, river banks, drainage, reinforcement and separation. Finally, it discusses the advantages of geotextiles such as lighter weight but also disadvantages like installation challenges and flow rate limitations.
Geotextiles are permeable fabrics made from materials like polypropylene, polyethylene, polyamides or polyester. They are used in construction and civil engineering projects to separate, filter, reinforce, protect or drain soil. Common applications include roads, dams, and erosion control. Geotextiles function by separation, stabilization, and filtration and help prevent issues like drainage clogging, soil piping, and embankment erosion. Some have been developed into geogrids and meshes for additional benefits in geotechnical and environmental engineering designs.
Geotextiles are permeable fabrics used with soil, rock, earth, and other geotechnical engineering related material as an interface. The document discusses the functions, classification, production process, forms, properties of fibers, and applications of geotextiles. Geotextiles are used for separation, filtration, drainage, reinforcement, protection, and erosion control in applications such as roads, railways, retaining walls, slopes, shorelines, and landfills. Common materials used include polypropylene, polyester, and natural fibers like jute. Geotextiles come in various forms like geomembranes, geogrids, geonets, and geocomposites.
The document discusses geotextiles, which are permeable synthetic textile materials commonly made from polyester or polypropylene polymers. Geotextiles are used in construction applications such as road work, drainage, and coastal protection to increase soil stability, provide erosion control, and aid in drainage. They function by separating soils, filtering water, reinforcing soils, draining water, protecting soils from erosion, relieving stress, and acting as moisture barriers. Common materials used include polypropylene and polyester. Geotextiles are formed through weaving or non-woven processes like needle punching or heat bonding.
textile in building technology & road constructionSubrata Barmon
The document discusses the use of textiles in civil engineering and construction applications. It describes how textiles are used in buildtech and geotextiles for applications like roads, buildings, and green roofs. It discusses the different categories, types, and functions of geotextiles, including the fibers used. Nanotechnology and acoustic/thermal insulation textiles are also discussed. The presentation aims to explain how textiles are increasingly being used for both temporary and permanent structures in civil engineering.
Woven and nonwoven geotextiles were first used in the 1950s and developed further in the late 1960s. Geotextiles, which are permeable textile materials, serve mechanical and hydraulic functions in civil engineering and environmental projects. They can provide separation, reinforcement, drainage, filtration, protection and erosion control depending on the application. Common types include woven, nonwoven, and knitted materials. Geotextiles are widely used to improve the performance of roads, railroads, drainage systems, slopes, landfills and walls by separating layers, reinforcing soils, and allowing fluid flow while preventing soil contamination.
The document discusses reinforced soil and geosynthetics. It begins with an introduction that defines geosynthetics as manufactured polymer products used in geotechnical engineering works. Soil reinforcement using geosynthetics improves strength through lateral restraint between the geosynthetic and soil, forcing failure planes deeper, and supporting wheel loads. The document then discusses various types of geosynthetics like geotextiles, geogrids, and geomembranes. It provides examples of using geosynthetics for filtration, drainage, separation, and reinforcement of slopes, retaining walls, and embankments. The advantages include easier installation and higher strength compared to traditional methods.
The document discusses geosynthetics, which are man-made materials used in civil engineering and construction projects. There are five main types of geosynthetics - geogrids, geomembranes, geonets, geotextiles, and related products. They serve six key functions, such as separation, drainage, reinforcement, protection, strengthening, and isolation. The document provides details on the materials, manufacturing, applications in areas like roads, railways, slopes, and benefits of using geosynthetics.
DBATU University, Lonere
geotextiles use in civil engg ppt.
presented by JITENDRA ANANDA MANE.
Under the guidance of Asst. Prof. B R LAGAD sir. Dept. Of. Civil Engg.
This document discusses geotextiles and geogrids. It defines geotextiles as permeable geosynthetics made of textiles that are used in construction to provide functions like separation, filtration, drainage, and reinforcement. Geogrids are defined as structurally sound grids made of extruded bars used to reinforce soils in applications like roads, retaining walls, and embankments. The document provides examples of using geotextiles for separation and geogrids for reinforcement in challenging soil conditions for various construction projects.
The document provides information about geo textiles, including:
- Their basic functions like separation, filtration, reinforcement, and drainage.
- Common types are woven and non-woven fabrics made of polypropylene or polyester.
- They are tested to standards like ASTM to ensure strength, permeability, and resistance to puncture, tearing, and UV degradation.
- Proper installation requires sewing machines, thread, and a three-person team to accurately place and stitch the geo textile materials.
Geotextiles are synthetic fabrics that are used in civil engineering and construction projects. They were first used in the 1950s as woven industrial fabrics and the first nonwoven geotextile was developed in 1968. Geotextiles are porous, flexible materials made of woven, nonwoven or knitted synthetic fibers. They serve important functions in construction including separation, reinforcement, drainage, filtration and protection. Common applications include roads, dams, retaining walls, and erosion control. Geotextiles improve performance and reduce costs for many types of civil engineering structures.
Application of Geocell in Geotechnical EngineeringRonak Jain
This document summarizes the applications of geocell in geotechnical engineering. Geocells are 3D honeycombed structures made of polymeric materials that form a confinement system when filled with compacted soil. Some key applications of geocells include erosion control, ground stabilization, retaining walls, slope protection, reservoirs, and improving bearing capacity. Geocells provide advantages such as protection for impervious liners and accommodation of subgrade movement without loss of integrity. A case study demonstrated how geocells were used successfully to build an access road over weak soils near a waste disposal site.
The document provides an overview of geosynthetics, including their definition, history, categories of products, functions, materials used, and applications. Some key points:
- Geosynthetics are man-made materials used in construction to improve soil properties and ground engineering works. They include geotextiles, geogrids, geomembranes, geonets, and related products.
- Though new, the concept of geosynthetics dates back to use of natural fibers like jute and coir for soil reinforcement. Today most are made from synthetic polymers.
- Geosynthetics serve functions like separation, drainage, reinforcement, protection, and filtration. Common applications include roads
Best practices for project execution and deliveryCLIVE MINCHIN
A select set of project management best practices to keep your project on-track, on-cost and aligned to scope. Many firms have don't have the necessary skills, diligence, methods and oversight of their projects; this leads to slippage, higher costs and longer timeframes. Often firms have a history of projects that simply failed to move the needle. These best practices will help your firm avoid these pitfalls but they require fortitude to apply.
[To download this presentation, visit:
https://www.oeconsulting.com.sg/training-presentations]
This presentation is a curated compilation of PowerPoint diagrams and templates designed to illustrate 20 different digital transformation frameworks and models. These frameworks are based on recent industry trends and best practices, ensuring that the content remains relevant and up-to-date.
Key highlights include Microsoft's Digital Transformation Framework, which focuses on driving innovation and efficiency, and McKinsey's Ten Guiding Principles, which provide strategic insights for successful digital transformation. Additionally, Forrester's framework emphasizes enhancing customer experiences and modernizing IT infrastructure, while IDC's MaturityScape helps assess and develop organizational digital maturity. MIT's framework explores cutting-edge strategies for achieving digital success.
These materials are perfect for enhancing your business or classroom presentations, offering visual aids to supplement your insights. Please note that while comprehensive, these slides are intended as supplementary resources and may not be complete for standalone instructional purposes.
Frameworks/Models included:
Microsoft’s Digital Transformation Framework
McKinsey’s Ten Guiding Principles of Digital Transformation
Forrester’s Digital Transformation Framework
IDC’s Digital Transformation MaturityScape
MIT’s Digital Transformation Framework
Gartner’s Digital Transformation Framework
Accenture’s Digital Strategy & Enterprise Frameworks
Deloitte’s Digital Industrial Transformation Framework
Capgemini’s Digital Transformation Framework
PwC’s Digital Transformation Framework
Cisco’s Digital Transformation Framework
Cognizant’s Digital Transformation Framework
DXC Technology’s Digital Transformation Framework
The BCG Strategy Palette
McKinsey’s Digital Transformation Framework
Digital Transformation Compass
Four Levels of Digital Maturity
Design Thinking Framework
Business Model Canvas
Customer Journey Map
More Related Content
Similar to Geogrid Brochure by Singhal Industries Private limited
Geotextiles are technical textiles designed for use in civil engineering projects to provide separation, filtration, reinforcement, protection or drainage. There are two main types - woven and nonwoven. Woven geotextiles are strong, UV resistant and prevent biological degradation. Nonwoven geotextiles are ideal for roads, buildings and landfills. Geotextiles perform basic functions like filtration, separation, reinforcement and drainage. They are used in applications such as roads, bridges, dams and retaining walls to improve soil strength at a lower cost than traditional methods. Geotextiles can also replace hydroseeding on slopes prone to erosion.
This document summarizes the various types of geosynthetics, their properties, and applications. Geosynthetics include geotextiles, geogrids, geonets, geomembranes, geocomposites, geocells, and geofoam. Each type has different characteristics making it suitable for various civil engineering purposes like soil reinforcement, separation, drainage, and containment. Common applications include roads, retaining walls, soil erosion control, and landfill construction. The document provides details on the material composition, manufacturing process, and functions of each geosynthetic type.
This document reviews geosynthetics, which are synthetic materials used in civil engineering projects. There are eight main types of geosynthetics, including geotextiles, geogrids, and geomembranes. Geosynthetics have a variety of functions and applications, such as soil reinforcement, filtration, drainage, separation, and forming barriers. They have advantages like being economical and allowing faster construction. However, their long-term performance depends on factors like proper additives and quality control during manufacturing and installation. Overall, geosynthetics can strengthen soils and provide cost-effective solutions for various civil engineering construction needs.
This document provides definitions and information about geosynthetics and fiber textiles. It defines geosynthetics as synthetic products used to stabilize terrain that are generally polymeric products used to solve civil engineering problems. It discusses the main types of geosynthetics including geotextiles, geogrids, geomembranes, geosynthetic clay liners, and more. It provides details on various geosynthetic materials, their constituents, applications, advantages, and disadvantages. It also discusses fiber textiles and their properties for making fabrics.
This document discusses the applications of geotextiles. It provides an introduction to geotextiles and discusses the materials used to make them such as polypropylene and polyester. It then describes the different types of geotextiles including woven, non-woven and knitted. The document outlines various applications of geotextiles such as in roadworks, river banks, drainage, reinforcement and separation. Finally, it discusses the advantages of geotextiles such as lighter weight but also disadvantages like installation challenges and flow rate limitations.
Geotextiles are permeable fabrics made from materials like polypropylene, polyethylene, polyamides or polyester. They are used in construction and civil engineering projects to separate, filter, reinforce, protect or drain soil. Common applications include roads, dams, and erosion control. Geotextiles function by separation, stabilization, and filtration and help prevent issues like drainage clogging, soil piping, and embankment erosion. Some have been developed into geogrids and meshes for additional benefits in geotechnical and environmental engineering designs.
Geotextiles are permeable fabrics used with soil, rock, earth, and other geotechnical engineering related material as an interface. The document discusses the functions, classification, production process, forms, properties of fibers, and applications of geotextiles. Geotextiles are used for separation, filtration, drainage, reinforcement, protection, and erosion control in applications such as roads, railways, retaining walls, slopes, shorelines, and landfills. Common materials used include polypropylene, polyester, and natural fibers like jute. Geotextiles come in various forms like geomembranes, geogrids, geonets, and geocomposites.
The document discusses geotextiles, which are permeable synthetic textile materials commonly made from polyester or polypropylene polymers. Geotextiles are used in construction applications such as road work, drainage, and coastal protection to increase soil stability, provide erosion control, and aid in drainage. They function by separating soils, filtering water, reinforcing soils, draining water, protecting soils from erosion, relieving stress, and acting as moisture barriers. Common materials used include polypropylene and polyester. Geotextiles are formed through weaving or non-woven processes like needle punching or heat bonding.
textile in building technology & road constructionSubrata Barmon
The document discusses the use of textiles in civil engineering and construction applications. It describes how textiles are used in buildtech and geotextiles for applications like roads, buildings, and green roofs. It discusses the different categories, types, and functions of geotextiles, including the fibers used. Nanotechnology and acoustic/thermal insulation textiles are also discussed. The presentation aims to explain how textiles are increasingly being used for both temporary and permanent structures in civil engineering.
Woven and nonwoven geotextiles were first used in the 1950s and developed further in the late 1960s. Geotextiles, which are permeable textile materials, serve mechanical and hydraulic functions in civil engineering and environmental projects. They can provide separation, reinforcement, drainage, filtration, protection and erosion control depending on the application. Common types include woven, nonwoven, and knitted materials. Geotextiles are widely used to improve the performance of roads, railroads, drainage systems, slopes, landfills and walls by separating layers, reinforcing soils, and allowing fluid flow while preventing soil contamination.
The document discusses reinforced soil and geosynthetics. It begins with an introduction that defines geosynthetics as manufactured polymer products used in geotechnical engineering works. Soil reinforcement using geosynthetics improves strength through lateral restraint between the geosynthetic and soil, forcing failure planes deeper, and supporting wheel loads. The document then discusses various types of geosynthetics like geotextiles, geogrids, and geomembranes. It provides examples of using geosynthetics for filtration, drainage, separation, and reinforcement of slopes, retaining walls, and embankments. The advantages include easier installation and higher strength compared to traditional methods.
The document discusses geosynthetics, which are man-made materials used in civil engineering and construction projects. There are five main types of geosynthetics - geogrids, geomembranes, geonets, geotextiles, and related products. They serve six key functions, such as separation, drainage, reinforcement, protection, strengthening, and isolation. The document provides details on the materials, manufacturing, applications in areas like roads, railways, slopes, and benefits of using geosynthetics.
DBATU University, Lonere
geotextiles use in civil engg ppt.
presented by JITENDRA ANANDA MANE.
Under the guidance of Asst. Prof. B R LAGAD sir. Dept. Of. Civil Engg.
This document discusses geotextiles and geogrids. It defines geotextiles as permeable geosynthetics made of textiles that are used in construction to provide functions like separation, filtration, drainage, and reinforcement. Geogrids are defined as structurally sound grids made of extruded bars used to reinforce soils in applications like roads, retaining walls, and embankments. The document provides examples of using geotextiles for separation and geogrids for reinforcement in challenging soil conditions for various construction projects.
The document provides information about geo textiles, including:
- Their basic functions like separation, filtration, reinforcement, and drainage.
- Common types are woven and non-woven fabrics made of polypropylene or polyester.
- They are tested to standards like ASTM to ensure strength, permeability, and resistance to puncture, tearing, and UV degradation.
- Proper installation requires sewing machines, thread, and a three-person team to accurately place and stitch the geo textile materials.
Geotextiles are synthetic fabrics that are used in civil engineering and construction projects. They were first used in the 1950s as woven industrial fabrics and the first nonwoven geotextile was developed in 1968. Geotextiles are porous, flexible materials made of woven, nonwoven or knitted synthetic fibers. They serve important functions in construction including separation, reinforcement, drainage, filtration and protection. Common applications include roads, dams, retaining walls, and erosion control. Geotextiles improve performance and reduce costs for many types of civil engineering structures.
Application of Geocell in Geotechnical EngineeringRonak Jain
This document summarizes the applications of geocell in geotechnical engineering. Geocells are 3D honeycombed structures made of polymeric materials that form a confinement system when filled with compacted soil. Some key applications of geocells include erosion control, ground stabilization, retaining walls, slope protection, reservoirs, and improving bearing capacity. Geocells provide advantages such as protection for impervious liners and accommodation of subgrade movement without loss of integrity. A case study demonstrated how geocells were used successfully to build an access road over weak soils near a waste disposal site.
The document provides an overview of geosynthetics, including their definition, history, categories of products, functions, materials used, and applications. Some key points:
- Geosynthetics are man-made materials used in construction to improve soil properties and ground engineering works. They include geotextiles, geogrids, geomembranes, geonets, and related products.
- Though new, the concept of geosynthetics dates back to use of natural fibers like jute and coir for soil reinforcement. Today most are made from synthetic polymers.
- Geosynthetics serve functions like separation, drainage, reinforcement, protection, and filtration. Common applications include roads
Similar to Geogrid Brochure by Singhal Industries Private limited (20)
Best practices for project execution and deliveryCLIVE MINCHIN
A select set of project management best practices to keep your project on-track, on-cost and aligned to scope. Many firms have don't have the necessary skills, diligence, methods and oversight of their projects; this leads to slippage, higher costs and longer timeframes. Often firms have a history of projects that simply failed to move the needle. These best practices will help your firm avoid these pitfalls but they require fortitude to apply.
[To download this presentation, visit:
https://www.oeconsulting.com.sg/training-presentations]
This presentation is a curated compilation of PowerPoint diagrams and templates designed to illustrate 20 different digital transformation frameworks and models. These frameworks are based on recent industry trends and best practices, ensuring that the content remains relevant and up-to-date.
Key highlights include Microsoft's Digital Transformation Framework, which focuses on driving innovation and efficiency, and McKinsey's Ten Guiding Principles, which provide strategic insights for successful digital transformation. Additionally, Forrester's framework emphasizes enhancing customer experiences and modernizing IT infrastructure, while IDC's MaturityScape helps assess and develop organizational digital maturity. MIT's framework explores cutting-edge strategies for achieving digital success.
These materials are perfect for enhancing your business or classroom presentations, offering visual aids to supplement your insights. Please note that while comprehensive, these slides are intended as supplementary resources and may not be complete for standalone instructional purposes.
Frameworks/Models included:
Microsoft’s Digital Transformation Framework
McKinsey’s Ten Guiding Principles of Digital Transformation
Forrester’s Digital Transformation Framework
IDC’s Digital Transformation MaturityScape
MIT’s Digital Transformation Framework
Gartner’s Digital Transformation Framework
Accenture’s Digital Strategy & Enterprise Frameworks
Deloitte’s Digital Industrial Transformation Framework
Capgemini’s Digital Transformation Framework
PwC’s Digital Transformation Framework
Cisco’s Digital Transformation Framework
Cognizant’s Digital Transformation Framework
DXC Technology’s Digital Transformation Framework
The BCG Strategy Palette
McKinsey’s Digital Transformation Framework
Digital Transformation Compass
Four Levels of Digital Maturity
Design Thinking Framework
Business Model Canvas
Customer Journey Map
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2. ABOUT US
Since the inception of Singhal Group of Industries, India in 1987. The group has played a significant role in the flexible packaging
industry and over the years it has diversified its business in to construction industry segments. Our 30 years of experience has a
rich history of strength and innovation that our people have used to constantly transform our company. We would like to
introduce ourselves as a manufacturer and exporter of HDPE Sheets, Geocell, Geogrid, Geotextile, Geobag, Geotube, Drainage
Composite/Geocomposite, LDPE Liners, LDPE/ALU/PET, HDPE Geomembrane liners, Drain Cell, Corrugated Sheet, Warning Tapes
and many more products Which are widely used in to packaging, waterproofing, infrastructure and building construction
segments.
Currently we are manufacturing around 2500 tons per Month of Plastic sheets of various polymers from our 7 lines and our
monthly capacity is up to 25000 tons per month.
In addition, currently we are supplying our range of products in the USA, EUROPE, SPAIN, UK, ITALY, POLAND, MIDDLE EAST and
SOUTH AMERICA (URUGUAY, PARAGUAY)
3. GEOTEXTILE GEOTUBE
Geotextiles are permeable fabrics used in geotechnical
applications, such as road and railway embankments,
earth dikes, and coastal protection structures, designed
to perform one or more basic functions. such as filtration,
drainage, separation of soil layers, reinforcement, or
stabilization.
Geotube also known as geobags are used for sludge
dewatering projects due to their simplicity and low cost.
Geotube are similar like containers that are filled with the
hydraulically mix slurry blend of sand and water. The
Hydraulic pressure helps in transportation of sand in the
tube and the water get dissipated through the permeable
membrane. After dewatering the sand will settle out in the
Geotube.
Geotube holds off the sediments by means of a dredge
pump and transports them to reach in weight hoses. The
central focuses of this sort of sludge evacuation are easy
that means no need to lower the water inside the lake, so it
can moreover be utilized in canals. The water get absent
through the permeable surface of the Geotube seawall.
After few days, the substance can be cleared like a solid
and disposed or utilized again. As the fluid get absent
through the tissue, the solids are held. The filling handle is
reiterateduntil the hose is full. After Geotube dewatering,
the solids can be processed like a dry matter.
Unpaved and paved roads in airport runways.
Road construction and rail line construction.
Landfills and stone base courses.
Sidewalks and sand drainage layers.
Parking lots and curb areas.
Green areas and recreational facilities.
Retaining wall structures.
Duct banks and pipe trenches.
Coastal revetments that is riverbank protection.
Environmental dredging/dewatering.
Wastewater Processing.
Agriculture.
etties and Groynes.
Dykes and Levees
Separation.
Filtration.
Reinforcement.
Sealing.
Protection.
Types of Geotextile
1. Open-mesh or woven fabric geotextiles.
2. Closed fabric or non-woven geotextiles.
3. Knitted geotextiles.
Geotextile Applications
Area of application
Geotextile Uses
Singhal PP Geotextile Specification-
Singhal Polyester Geotextile Specification-
4. GEOGRID
Geogrids can be categorized as geosynthetic materials
that are used in the construction industry in the form of
a reinforcing material. It can be used in the soil
reinforcement or used in the reinforcement of retaining
walls.
Geogrids are commonly made of polymer materials,
such as polyester, polypropylene, HDPE or glass
reinforced fiber. They may be woven or knitted from
yarns, heat-welded from strips of material, or produced
by punching a regular pattern of holes in sheets of
material, then
Building firm working surfaces over soft ground
conditions.stretched into a grid.
Enhance a pavement's service life.
Reduce the structural cross-section of both paved
and unpaved roadways for given service life.
Uniaxial Geogrids: These geogrids are formed by the
stretching of ribs in the longitudinal direction. So, in this
case, the material possesses high tensile strength in the
longitudinal direction than on the transverse direction.
Biaxial Geogrids: Here during the punching of polymer
sheets, the stretching is done in both directions. Hence the
function of tensile strength is equally given to both
transverse and longitudinal direction.
Embankments and Soft Soils.
Erosion Control.
Highway Infrastructure.
Roadway Improvements.
Reinforced Steep Slopes.
Retaining Walls.
Landfill Construction
Types of geogrid
Singhal HDPE Uniaxial Geogrid specifications
Singhal Polyester Uniaxial Geogrid specifications
Singhal PP Biaxial Geogrid specifications
Singhal Polyester Biaxial Geogrid Specifications
Geogrids are deployed for three primary applications:
Geogrid Uses
5. Singhal Glass fiber Grid is a high-tensile fiberglass geogrid
with an especially high mesh stiffness due to the consistent
impregnation of each glass filament with our patented
polymer coating in order to protect fiberglass yarns and to
reach an effective bonding between asphalt layers. A
unique feature is the pressure sensitive adhesive backing of
the grid, which ensures a quick and efficient installation and
provides an excellent bond with the surface. It can be
installed directly on an old asphalt surface or on a levelling
course. For the application on a concrete pavement, the
installation of an levelling course is recommended.
Singhal Glass fiber Grid
GEOCELL
Geocells are cellular confinement systems that were
created as an easy and durable material that are used for
stabilizing and protection.
The cells’ three-dimensional, honeycomb design ensures
that the Geocell is strong and durable. This format creates
a structure that improves load distribution. stretched into
a grid.
The cell is made from a high density polyethylene (HDPE),
which is used to stabilize weak or unsteady soil. That ability
is a result of their ability to reduce lateral movement of soil
particles while vertically loading on the contained infill.
In addition to the stability, Geocells also provide a mattress
effect and improve the elasticity of the materials. The cells
have a high elastic stiffness and high tensile strength, and
because of this, they improve the load distribution of the
product.
Now, Geocell are widely being applied in the field of
geotechnical engineering, which controls erosion of
slopes and river banks, enhancing the bearing capacity
of retaining structures, pavements, reinforcing soft
grounds, protect shores and channel beds.
Geocells are very useful because of their ability to
expand, allowing materials to be compacted inside. This
expansion creates a free draining system that still inhibits
mass movements that other construction materials and
processes can not prevent.
Their high-quality design means that Geocells are
diverse and multi-functional. One of the main uses is for
protecting structures.
Geocells are used for the protection and stabilization of
steep slope surfaces. Geocells are used in mountainous
areas not only to stabilize the ground, but also to make
roads stronger and improve their life.
Geocells improves the static and dynamic load support
on weak subgrade level soils.
Geocells are used for multi-layered earth retaining and
water retaining gravity structures.
Uses of Geocell
6. GEOCOMPOSITE
A Geocomposite consists of a combination of one or more
geosynthetics, specifically a geogrid, a geotextile, a
geomembrane, and/or a geonet to perform multiple
number of geosynthetic functions such as separation,
reinforcement, filtration, drainage and containment.
Geotextiles-geogrid geocomposites are the most
preferred geosynthetics used in the railway, road &
highway application.
Advantages of Geocomposites:
Provides and maintains high volume flow-path for water
and gases, maintaining soil integrity.
Filtration properties suitable for most backfill types.
Highly cost-effective replacement to conventional
materials.
High drainage efficiency.
Water & wastewater management.
Drainage.
Municipal and Hazardous Waste Landfills.
Stadiums and Golf Courses.
Road & highway.
Tunnel.
Landfill & mining.
Soil reinforcement for civil construction.
Area of uses
GEOMEMBRANE
A geomembrane is very low permeability synthetic
membrane liner or barrier used with any geotechnical
engineering related material so as to control fluid (liquid
or gas) migration in a human-made project, structure, or
system. Geomembranes are made from relatively thin
continuous polymeric sheets.
Geomembranes have a wide range of applications, some
of which are:
Length may be as per requirement.
Available from the width of 500 mm to 10000 mm (0.5
meters to 10 meters)
Available in thickness of 100 microns to 2 mm for wider
width (till 10 meter) and 2.1mm to 30 mm up to 2500
mm width.
Agriculture and Nurseries.
Water industry.
Marine construction.
Manufacturing process.
Mining industry.
HDPE Geomembrane: High-Density Polyethylene
(HDPE) is characterized by strong UV/temperature
resistance, inexpensive material cost, durability, and high
resistance to chemicals.
LDPE Geomembrane: LDPE geomembrane is a low-den-
sity polyethylene geomembrane, it is corrosion-resistant
and low-temperature, tear-resistant, lightweight, and
relatively low cost.
LLDPE Geomembrane: LLDPE (Linear Low-Density
Polyethylene) geomembrane is made with virgin
polyethylene resins which make it strong, durable, and
resistant to UV & low temperature.
RPP Geomembrane: RPP (Reinforced Polypropylene)
geomembranes are polyester-reinforced liners made
from a UV-stabilized polypropylene copolymer that gives
the material stability, chemical resistance, and flexibility.
Types of Geomembrane
Geomembrane Applications
Singhal Geomembrane specifications:
7. As liners for various waste conveyance canals.
As waterproofing liners within ponds, tunnels and
pipelines.
As liners for the agriculture industry and fisheries
industry.
Erosion control, filtration and drainage in one product for
coastal, offshore, waterfront, waterway structures and
foundation applications
Soft Rock RS includes UV resistance and an anti-vandalism
protection layer
Conforms to uneven terrain without sacrificing strength
Environmentally smart: reduces carbon footprint, creates
habitat zones, minimizes site disturbance
Transforms erosion-prone soils into erosion-resistant
systems
Long-term durability and performance
Erosion control, filtration & drainage, all-in-one Geotextile
bag
To contain and transport potable water and other
liquids in the ocean.
Beneath highways to prevent pollution from deicing
salts.
As liners for primary, secondary, or/and tertiary
waste piles and solid-waste landfills.
Adjacent and beneath highways to capture hazard-
ous liquid spills.
As liners for sewage sludge, radioactive or hazardous
waste liquid.
To contain and transport liquids in trucks.
GEO NET GEO BAGS
With an immense expertize in the domain, we offer our
clients with a wide range of Geo nets, which appreciated
for features like durability, dimensional accuracy, and
tensile strength. These grids find application in soft
foundation reinforcing for landfill sites, highways which
makes construction much easier.
Geobags are small soil containers that are made of
non-woven geotextile, used for slope protection and river
training work. Geobags, also known as Geotextiles Bags,
Geotextile Sand Containers or Non-woven Geobags, are
filled with locally available sand and stitched manually on
site to form a bag.
Specifications : Advantages:
Geomembrane Uses
8. DRAIN CELL
Singhal Drain Cell functions as a protective membrane for
waterproofing and provides ventilation to concrete slabs
which eliminates heat induced stress and cracking.
Furthermore if the wall is cracked and no efficient drainage
is present contamination from the soil such as salts and
other corrosive elements will further contribute to the
deterioration of wall integrity. Singhal Drain cell is available
in PP and HDPE material.
Grass Paver Premium Series will be ideal for pathways as
they have higher load bearing capacity. The 20mm &
30mm drain cells can be used for Landscaping and Allied
Activity.
Singhal PP Drain cell specifications-
1.Grass Paver Premium Series
500*500 * 40 mm
2. Premium Quality Drain Cells:
250 *500 * 30 mm
3. Eco series quality drain cells:
250*500*20 mm 40mm
9.
10.
11.
12.
13. Weight: Singhal HDPE sheet is known for being extremely
lightweight yet durable.
Malleability: Singhal HDPE sheet is easily molded and transformed
into just about any shape or design.
Resistance: Not only Singhal HDPE sheet features a high
chemical and impact resistance but it is also resistant to rotting,
insects, mildew and mold.
Weatherability: Singhal HDPE sheet is often used for outdoor
applications as it can stand some of the most extreme weather.
Life-Span: Due to its high impact, chemical and weather resist-
ance, Singhal HDPE sheet has a better life span.
Durability: Due to its chemical composition Singhal HDPE sheets
are durable in nature.
Benefits of using Singhal HDPE SHEET-
14.
15. High Functionality
Resistant to thermal shocks,
High corrosion resistance,
Durable,
Easy usage and Lightweight
Thickness Range: 1.5mm to 5mm
Width: 1500mm +/- 3%
PPGLSHEET
Now the business has emerged into the modern world by
introducing many new products and taking with the help of
our rich industry experience, we are engaged in offering
PPGL Sheets
PPGL sheets have found wide applications in various
industries like mining, sugar, and especially in the steel
industry for pickling tanks. Our clients can avail of quality
products from us at the most competitive prices and most
importantly, adhere to delivery schedules supported by our
team members who work around the clock.
(POLYPROPYLENE GLASS-LINED SHEETS)
Key Features: