Rammed Earth Construction and the Use of Additives
Technologies, Classification, and Applications
- 1st Edition - October 1, 2026
- Latest edition
- Authors: Hamed Niroumand, Katayoun Taghizadeh
- Language: English
Rammed Earth Construction and the Use of Additives: Technologies, Classification, and Applications reports on earth buildings as viable solution to meet requirements for modern… Read more
Rammed Earth Construction and the Use of Additives: Technologies, Classification, and Applications reports on earth buildings as viable solution to meet requirements for modern-day, green construction. Opening with a combination of foundational aspects and a discussion on state-of-the-art technologies that enhance the rammed earth technique, the book then investigates the admixtures that can be used to improve raw materials’ durability, strength, and thermal performance. Coverage thoroughly delves into different types of additives, clarifying the origin of those naturally sourced, the manufacturing processes of those manmade, and their specific effects, with a focus on methods for stabilization, reinforcement, and preservation of structures.
Real-world case studies are also included, bringing practical value-add to an already scientifically robust research resource. This will be an essential guide for a variety of audiences in academic and industry contexts who are committed to finding new ways of thinking and working to fulfill pressing sustainability goals worldwide.
Real-world case studies are also included, bringing practical value-add to an already scientifically robust research resource. This will be an essential guide for a variety of audiences in academic and industry contexts who are committed to finding new ways of thinking and working to fulfill pressing sustainability goals worldwide.
- Substantiates the suitability of rammed earth as an ideal construction method, both in terms of climate neutrality and structural stability
- Provides exhaustive knowledge of additives to improve properties of raw materials used and the performance of rammed earth structures
- Combines technical and empirical data with analyses of real-scale examples to advance understanding of methodologies and their applicability
Academics, researchers, and postgraduate students in materials science for construction; construction engineering; civil and structural engineering; sustainable built environment; architectural engineering; heritage conservation
Part 1: Rammed earth construction
1. Introduction to rammed earth construction
2. Mechanical, chemical, and hydrothermal properties of rammed earth walls
3. Advantages and drawbacks of rammed earth construction
4. Rammed earth construction technologies
Part 2: Classification of additives for rammed earth construction
5. Natural additives
6. Chemical compounds
7. Mineral wastes
Part 3: Investigation of the effects of additives for rammed earth construction
8. Soil stabilization through admixture
9. Soil reinforcement through different fibers
10. Rammed earth wall preservation through coating and admixture
Part 4: Transitioning from research to real-scale projects
11. Case studies and analysis
1. Introduction to rammed earth construction
2. Mechanical, chemical, and hydrothermal properties of rammed earth walls
3. Advantages and drawbacks of rammed earth construction
4. Rammed earth construction technologies
Part 2: Classification of additives for rammed earth construction
5. Natural additives
6. Chemical compounds
7. Mineral wastes
Part 3: Investigation of the effects of additives for rammed earth construction
8. Soil stabilization through admixture
9. Soil reinforcement through different fibers
10. Rammed earth wall preservation through coating and admixture
Part 4: Transitioning from research to real-scale projects
11. Case studies and analysis
- Edition: 1
- Latest edition
- Published: October 1, 2026
- Language: English
HN
Hamed Niroumand
Dr. Hamed Niroumand is an Associate Professor at the Department of Civil Engineering, Buein Zahra Technical University. His main fields of research are geotechnical engineering, earth anchors, deep foundation, sustainable development, green buildings, sustainable architecture, nanotechnology in geotechnical engineering, and soil mechanics. Alongside his academic duties, he is a project manager and a professional engineer. He received the Best Researcher Award by the Ministry of Road and Urban Development (MRUD) in 2016. He has been the chairman of international/national civil engineering conferences, as well as chairing numerous sessions himself. He is a prolific author and is part of editorial boards or acts as a reviewer for many scientific journals. He currently holds 15 patents and has also received many awards for his research.
Affiliations and expertise
Associate Professor, Department of Civil Engineering, Buein Zahra Technical University, Bueenzahra, Qazvin Province, IranKT
Katayoun Taghizadeh
Affiliations and expertise
Associate Professor, School of Architecture, College of Fine Arts, University of Tehran, Tehran, Iran