Strata Global

Aperture stability modulus

What is Aperture Stability Modulus?

The Aperture Stability Modulus (ASM) is also called In-plane torsional rigidity. It can be defined as a critical parameter that evaluates the effectiveness of geogrids. These are usually made of polymer materials such as polyester, polyethene, polyvinyl alcohol, or polypropylene. They have large openings or apertures that reinforce soil and aggregate layers, enhancing stability and performance.

Before the ASM was developed, geogrids were primarily assessed using tensile strength tests. Although tensile strength plays some role in geogrids, it doesn’t fully capture the ability to resist twisting or deformation under stress, which is vital for ground reinforcement.
This limitation came to light in the 1990s. Prompting Dr. Timothy Kinney’s research on more comprehensive tests. He realised that a test directly measuring a geogrid’s resistance to twisting could provide better accuracy in determining its suitability for specific reinforcement applications.

What is the importance of Aperture Stability Modulus in geogrids?

Geogrids depend on interlocking with aggregate particles to improve stability in foundations and unpaved roads. Unlike traditional and unreinforced layers, they are susceptible to sideways movement when positioned under heavy traffic loads.

This movement can result in the following:

  • Unequal load distribution: Due to unequal load distribution, the weight is no longer distributed evenly on the underlying soil. This leads to concentrated loads in specific areas, which can cause failure in the initial stages of the project.
  • Low bearing capacity: When the underlying soil is unable to support the weight placed on it, it is called Low bearing capacity. This leads to displacement and can cause the project to fail.

The solution to these complications is Geogrids, which provide a mechanism that interlocks with aggregate particles. This results in the following benefits:

  • Better load distribution: The geogrids distribute the load evenly over a large area, reducing the stress accumulation on the subgrade and giving the structure more durability.
  • Improved bearing capacity: Proper geogrid reinforcement improves bearing capacity by allowing the aggregate layer to bear higher loads without failure.

How to Calculate Aperture Stability Modulus?

The standard calculation method of Aperture Stability Modulus is still in the development phase of ASTM International (ASTM D7864 is frame method).
However, its basic principle includes measuring geogrid’s distorted behaviour in proportion to the junction of a biaxial geogrid.

Below is the breakdown of the testing process:
● Preparation of the Sample: The first step is to test the Geogrid sample. A square section of the geogrid is taken as a test specimen to carry out this test.
● Fixing the secured perimeter: The next step is to fix a secured parameter to test the geogrid specimen. The specimen is then fixed along the edges to avoid movement during testing.
● Applying controlled moment: The next step is to apply a controlled twisting force or moment to the geogrid’s central junction.
● Measuring angular deflection: Once the moment is applied, the resulting angular deflection of the geogrid is measured.
Calculation of aperture stability modulus (ASM): The ASM is the ratio of change in a moment to angular rotation. The units are expressed as N-m/rad (Newton-meter per radians). The formula used for calculating ASM is

Aperture Stability Modulus (ASM) = M/θ

Where,
ASM = Aperture Stability Modulus (Units expressed in Newton-meter per radians)
M = Applied Moment (Units expressed in Newton-metre)
Θ = Angular deflection (Units expressed in Degrees)

How does the ASM Works?

Let’s assume a geogrid is positioned under an aggregate layer with a heavy traffic load. As traffic passes over the patch, the aggregate particles tend to shift sideways due to applied forces.
A geogrid is considered stiff when it has a high ASM value. It acts as a solid and interconnected net. The ribs and junctions of geogrid effectively lock the aggregate particles as they resist twisting and deformation. This mechanism avoids lateral movement, which leads to more stability and load bearing.

What is the importance of ASM in geogrid selection?

Understanding the application of ASM or Aperture Stability Modulus is integral to geogrid selection. It enables the engineers to make informed and proper decisions.
Here are some typical applications of ASM in geogrid selection:
Unpaved/unsurfaced roads: Geogrids with high ASM are mostly preferred for unsurfaced roads with heavy traffic loads and weak subgrades. This is to avoid rutting and enhance bearing capacity.
Enhanced soil reinforcement: Higher ASM geogrids are ideal for slopes as they enhance the soil reinforcement and prevent erosion.
Retention of walls: Geogrids with proper ASM values can be used for retaining walls as they effectively distribute loads and improve the overall structural stability.

ASM plays a crucial role in selecting geogrids, and understanding ASM is essential for stable and prosperous structural projects.

Leave a comment

Your email address will not be published. Required fields are marked *

Need a consultation? We’re at your service.

Tell us a little about yourself and what you’re looking for, and our experts will get back to you with a perfect solution!

Harold W. Hill, Jr

Director, President – Glen Raven Technical Fabrics

Strata/Glen Raven tenure: 10 years/28 years
Total industry experience: 35 years


MBA – Wake Forest University

 

Directs the strategic direction of Glen Raven’s automotive, protective apparel, military, geogrid, outdoor and logistic businesses.

J. Craig Bell

Director, General Manager, Strata Inc.

Strata/Strata Inc. tenure: 3 years/14 years
Total industry experience: 25 years


MBA – Georgia State University

 

Led the integration of Strata Inc. business operations into the headquarters of GRTF and transition from USA based to India based manufacturing.

Ashok Bhawnani

Director

Strata tenure: 17 years
Total industry experience: 47 years

CA – ICA

 

Played a key role in the establishment of Strata’s India operations. Provides vision for product innovation and leveraging new technology trends.

Phil McGoldrick

Global Technical Sales Director

Strata tenure: 7 years
Total industry experience: 32 years


Civil & Geotechnical Engineer (First class)


Provides highly technical and innovative civil engineering solutions in India and around the world. Responsible for the design and execution of large-scale geotechnical projects around the world including Australia, Asia, Europe, Africa, Middle East, and South America.

Shahrokh Bagli

CTO – Chief Technology Officer

Strata tenure: 9 years
Total industry experience: 48 years


BTech (Hons), MTech (Civil) Both IIT Bombay, DMS (Bombay University), FIE, FIGS, Chartered Engineer

 

Streamlines the designs of Geosynthetics and has brought innovation in geogrid and geocell design application.

Mujib Katrawala

COO – Projects and Sales

Strata tenure: 13 years
Total industry experience: 24 years


MBA – University of Gujarat

 

Leads the monetization of products and solutions while ensuring highest execution quality and project profitability.

Chandrashekhar Kanade

COO – Technical Textiles

Strata tenure: 13 years
Total industry experience: 33 years


BE (Mechanical) – Nagpur University

 

Drives excellence in process design, product features and cost effectiveness in production.

Govind Keswani

CFO – Chief Financial Officer

Strata tenure: 8 years
Total industry experience: 35 years


CA – ICA, ICWA – ICWAI

 

Leads the finance, accounting, taxation, commercial, legal and IT functions and assisting on all strategic and operational matters.

Gautam Dalmia

CDO – Chief Development Officer

Strata tenure: 10 years
Total industry experience: 13 years


MBA – ISB, Hyderabad

 

Leads diversification of the product portfolio, monetizing the new products and ensuring successful sustained financial growth of the company top line.

Narendra Dalmia

CEO – Chief Executive Officer

Strata tenure: 14 years
Total industry experience: 42 years


B Tech (Chemical) – IIT Delhi

 

Leads day-to-day business operations of the company with focus on capacity expansion, product and process improvement.

Need a consultation? We’re at your service.

Tell us a little about yourself and what you’re looking for, and our experts will get back to you with a perfect solution!