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Homepage>BS Standards>93 CIVIL ENGINEERING>93.020 Earthworks. Excavations. Foundation construction. Underground works>BS EN 17542-1:2022 Earthworks. Geotechnical laboratory tests Degradability test standard
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BS EN 17542-1:2022 Earthworks. Geotechnical laboratory tests Degradability test standard

BS EN 17542-1:2022

Earthworks. Geotechnical laboratory tests Degradability test standard

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Standard number:BS EN 17542-1:2022
Pages:22
Released:2022-08-16
ISBN:978 0 539 13846 7
Status:Standard
BS EN 17542-1:2022 Earthworks. Geotechnical laboratory tests Degradability test standard

BS EN 17542-1:2022 Earthworks. Geotechnical Laboratory Tests Degradability Test Standard

Standard Number: BS EN 17542-1:2022

Pages: 22

Released: 2022-08-16

ISBN: 978 0 539 13846 7

Name: Earthworks. Geotechnical Laboratory Tests Degradability Test Standard

Status: Standard

Overview

The BS EN 17542-1:2022 is a comprehensive standard that provides detailed guidelines and procedures for conducting degradability tests in geotechnical laboratory settings. This standard is essential for professionals involved in earthworks and geotechnical engineering, ensuring that they adhere to the highest quality and safety standards.

Key Features

  • Comprehensive Guidelines: The standard offers a thorough set of guidelines for performing degradability tests, ensuring consistency and reliability in results.
  • Up-to-Date Information: Released on 2022-08-16, this standard incorporates the latest advancements and best practices in the field of geotechnical engineering.
  • Detailed Procedures: With 22 pages of detailed procedures, this standard covers every aspect of degradability testing, from sample preparation to data analysis.
  • ISBN: 978 0 539 13846 7, ensuring easy reference and citation in academic and professional contexts.

Why Choose BS EN 17542-1:2022?

Choosing the BS EN 17542-1:2022 standard means opting for a reliable and authoritative source of information. This standard is designed to help professionals in the field of geotechnical engineering achieve accurate and consistent results in their degradability tests. Here are some reasons why this standard is indispensable:

  • Ensures Compliance: Adhering to this standard ensures that your laboratory tests comply with the latest industry regulations and standards.
  • Enhances Accuracy: The detailed procedures and guidelines help in minimizing errors and enhancing the accuracy of your test results.
  • Facilitates Training: This standard serves as an excellent training resource for new professionals entering the field of geotechnical engineering.
  • Supports Research: With its comprehensive and up-to-date information, this standard is a valuable resource for academic and professional research.

Applications

The BS EN 17542-1:2022 standard is applicable in various scenarios within the field of geotechnical engineering, including but not limited to:

  • Soil Degradability Testing: Provides detailed procedures for testing the degradability of different soil types, which is crucial for earthworks and construction projects.
  • Material Selection: Helps in selecting the appropriate materials for construction projects based on their degradability characteristics.
  • Quality Control: Ensures that the materials used in construction meet the required standards of degradability, thereby enhancing the longevity and safety of the structures.
  • Environmental Impact Assessment: Assists in assessing the environmental impact of construction projects by providing reliable data on the degradability of materials used.

Structure of the Standard

The BS EN 17542-1:2022 standard is meticulously structured to provide clear and concise information. The 22 pages are organized into several sections, each focusing on a specific aspect of degradability testing:

  • Introduction: Provides an overview of the standard and its importance in geotechnical engineering.
  • Scope: Defines the scope of the standard, including the types of materials and tests covered.
  • Definitions: Offers clear definitions of key terms and concepts used in the standard.
  • Test Methods: Detailed procedures for conducting various degradability tests, including sample preparation, testing conditions, and data analysis.
  • Reporting: Guidelines for documenting and reporting the results of degradability tests.
  • References: A comprehensive list of references and additional resources for further reading.

Conclusion

In conclusion, the BS EN 17542-1:2022 Earthworks. Geotechnical Laboratory Tests Degradability Test Standard is an essential resource for professionals in the field of geotechnical engineering. Its comprehensive guidelines, detailed procedures, and up-to-date information make it an invaluable tool for ensuring the accuracy and reliability of degradability tests. Whether you are involved in soil testing, material selection, quality control, or environmental impact assessment, this standard will help you achieve the highest standards of quality and safety in your work.

DESCRIPTION

BS EN 17542-1:2022


This standard BS EN 17542-1:2022 Earthworks. Geotechnical laboratory tests is classified in these ICS categories:
  • 93.020 Earthworks. Excavations. Foundation construction. Underground works
This document defines the principle and the methods for the determination of the "degradability coefficient" of rocky material. The degradability coefficient IDG distinguishes the behaviour of certain rocky material and is used to show the change in the geotechnical characteristics (particle size, clay content, plasticity, etc.) in relation to the characteristics seen immediately following excavation. Changes in the particle size occur due to the combined action of climatic or geohydrological elements (frost, soaking-drying cycles) and mechanical stress to which it is subjected. In the case of degradable rocky material, this leads to a fairly significant and continuous reduction in the mechanical and geometric characteristics of the works in which they are used. The two methods developed in this document for the determination of IDG are not equivalent, so any result obtained by this document can refer to the method used.