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Napa, United States
11-50 Employees
1997
Our goal is to provide our advanced and unique technology to building the US infrastructure. Raito group operates within a wide range of civil engineering disciplines, from infrastructure to subsurface construction. Whenever new opportunities arise, Raito will implement our advanced technology to build the finest product and to give our clients the most reliable service, highest quality and best value. Raito provides design and geotechnical construction services for a wide range of public infrastructure and private projects in the United States.
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Featured
Shallow Soil Mixing (SCM)
... Shallow Soil Mixing is one variety of Mechanical Soil Mixing technology. It improves the soft ground shallowly. The compact mixing equipment, attached to a standard 0.7m3 to 1.0 m3 excavator, can improve the soft ground to the depth of up to 7 m. This technique is applied to improve ...
Miami, United States
101-250 Employees
1988
Most of our clients contract with us on small jobs and delivering these on time, to high quality, every time is what builds our reputation and makes us the contractor of choice locally.
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Featured
Dry soil mixing
... Dry soil mixing is a ground improvement technique that improves soft, high-moisture clays, peats, and other weak soils, by mechanically mixing them with a dry cementitious binder to create soilcrete. ...
Deer Park, United States
251-500 Employees
1991
We are at the forefront of creating safer spaces in our communities, restoring impacted sites into usable residential and urban properties, and creating a healthier society that can thrive and grow. We are problem solvers, empowered every day to make the best decisions for our Clients. We’re here to provide our in-house expertise to remediate and help construct the foundations for development. Our innovative geotechnical construction services address environmental impacts and strengthen subsurface site conditions for development or expansion. With over 30 years of experience and over 3,000 projects, we have the size and expertise to solve your most complex challenges. Our proven and experienced teams deliver safe, high-quality, innovative solutions on schedule and under budget for our Clients. Let’s explore how we can manage complexity to deliver results.
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Featured
Soil Mixing and Treatment
... ENTACT's an industry leader in soil mixing solutions. Our in-house lab gives us a competitive edge & our clients’ trust makes us successful. ...
251-500 Employees
2002
Our global footprint has enriched us with knowledge and experience as we provide different geotechnical solutions across the world. From inception to present day, we are committed towards our two principles – Engineering Excellence and Continual Innovation.
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Featured
Wet soil mixing
... Wet soil mixing, also known as the deep mixing method, improves the characteristics of weak soils by mechanically mixing them with cementitious binder slurry. ...
London, United Kingdom
1861
Keller is the UK's leader in geotechnical solutions. Most of our clients contract with us on small jobs, and delivering these on time, to high quality, every time is what builds our reputation and makes us the contractor of choice locally. We focus on providing reliable data from professionally installed instrumentation and presenting it to our clients in a clear and effective and user friendly way.
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Featured
Wet soil mixing
... Wet soil mixing, also known as the deep mixing method, improves the characteristics of weak soils by mechanically mixing them with cementitious binder slurry. ...
Kempenich, Germany
1-10 Employees
Our services are used across the construction spectrum in infrastructure, industrial, commercial, residential and environmental projects. Keller is the world’s largest independent Ground Engineering Contractor, renowned for providing technically advanced and cost-effective foundation solutions. Our reputation is built on engineering excellence and a commitment to continual innovation. Keller’s global presence is a key advantage with regards to resources related to technical, plant and specialist staff. Knowledge sharing through our Keller Cloud connects all branches, enhancing their versatility to provide appropriate geotechnical solutions to almost any situation worldwide. Equipped with a full team of designers, we reinforce innovative and cost-effective solutions that can meet any specific requirements.
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Featured
Deep soil mixing - wet method
... Deep soil mixing (DSM), improves the characteristics of weak soils by mechanically mixing them with cementitious binder slurry. ...
Sydney, Australia
251-500 Employees
2015
Most of our clients contract with us on small jobs, and delivering these on time, to high quality, every time is what builds our reputation and makes us the contractor of choice locally. As one of the globally connected companies of Keller, we also have the financial strength, know-how, capacity and the global reach to tackle larger and more demanding projects.
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Featured
Wet soil mixing
... Wet soil mixing, also known as deep soil mixing, improves the characteristics of weak soils by mechanically mixing them with a cementitious binder slurry. ...
251-500 Employees
1957
In TREVI we are committed to protect the health and safety of everyone that works with us, lives in the communities where we operate. Wherever we are, we conduct our business with respect and care for the environment, guaranteeing products and services that meet the best quality criteria. The Trevi Group is a world leader in the field of underground engineering from A to Z (special foundations, soil consolidation, recovery of polluted sites), in the design and marketing of specialized technologies in the sector. In this way, TREVI has been able to develop innovative global technologies, thanks to a practical and concrete analysis performed by curious professionals and experts, modern and streamlined productive systems, hard work of teams spread out across distant, almost inaccessible lands, but held together by common values and a passion that knows no borders, because so perfectly human. Trevi's Ethic Code is the same as the Trevi Group’s one and it points out all commitments and ethic responsibilities employees have to comply with when carrying out business and general company activities. Trevi Group is a worldwide leader in the field of soil engineering (special foundations, tunnel excavation, soil consolidation and the building and marketing of special rigs and equipment relevant to this engineering sector).
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Featured
Deep Soil Mixing
... Deep Soil Mixing. ...
Nanyang City, China
251-500 Employees
2002
Henan ZOOMLINE Machinery CO., Ltd. is a high-tech road construction machinery enterprise. Since its inception, we have been adhering the business concept of "Cost-effective solutions for your project", from the product development, production, quality control, whole system test, sales and after-sales service, we have kept the style of precise, realistic and scientific for elaborating products and services to let customers satisfied. Now, our business and service organizations have covered all domestic regions and 30 foreign countries, and we are committed to being well-known brand–ZOOMLINE. Based in Nanyang Longsheng Industrial Park of Henan, ZOOMLINE is a leader in the production of professional asphalt mixing plant, recycling asphalt plant, corollary equipment supplier. We have one R & D manufacturing center covers about 50,000 square meters.
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Featured
Stabilized Soil Mixing Plant
... Stabilized soil mixing plant-ZOOMLINE ...
Texas, United States
251-500 Employees
1932
We deliver reliable, innovative, and cost-effective deep foundation solutions for your critical commercial and infrastructure projects. As the years progressed, our commitment to innovation and excellence remained unwavering. While our roots are in San Antonio, Texas, we’ve extended our services across the United States, Caribbean, Central America, South America, and more. We bring our wealth of experience, industry-leading expertise, and a deep commitment to safety to each and every project we take on. We bring our wealth of experience, innovative and collaborative solutions, as well as our uncompromising commitment to safety to each and every project we take on to ensure your project is delivered on time, on budget, and to the highest quality standards. Beck Foundation Company is a specialty deep foundation, ground improvement and earth retention contractor that has been in business since 1932.
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Featured
Soil Cement Columns / Deep Soil Mixing - A.H. Beck Foundation Co., Inc.
... Soil Cement Columns / Deep Soil Mixing - A.H. Beck Foundation Co., Inc. ...
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Some interesting numbers and facts about the results you have just received for Soil Mixing
Country with most fitting companies | United States |
Amount of fitting manufacturers | 69 |
Amount of suitable service providers | 61 |
Average amount of employees | 251-500 |
Oldest suiting company | 1861 |
Youngest suiting company | 2015 |
Soil mixing refers to a ground improvement technique that involves the blending of in situ soil with cementitious materials, such as cement, lime, or fly ash, to enhance the soil's physical and mechanical properties. This process is conducted using specialized equipment that mechanically mixes the soil while introducing the binder material to create a more stable, homogenous mixture. The primary objective of soil mixing is to improve the bearing capacity, reduce permeability, and mitigate the potential for liquefaction of the soil, thereby preparing it for various construction and engineering applications. This technique finds its application in a wide range of projects, including foundation support, slope stabilization, and environmental remediation, by creating barriers for contaminant migration. The versatility and effectiveness of soil mixing make it a preferred method for addressing complex geotechnical challenges, offering a sustainable alternative to traditional excavation and replacement methods. By enhancing ground conditions, soil mixing plays a crucial role in facilitating safer, more efficient construction practices and contributes significantly to the advancement of civil engineering and environmental management efforts.
1. Enhanced Soil Stability
Soil mixing significantly improves the bearing capacity and shear strength of the ground. This method involves the blending of in-situ soil with stabilizing agents, resulting in a more stable and durable soil structure. This is particularly beneficial for construction projects on weak or unstable soils, where traditional foundation methods might falter.
2. Cost-Effectiveness
Compared to traditional soil stabilization methods, soil mixing is often more cost-effective. This is because it utilizes the existing soil on-site, reducing the need for expensive importation of fill materials. Additionally, the process is generally quicker, which can lead to a reduction in overall project costs through decreased labor and equipment usage.
3. Environmental Sustainability
Soil mixing is viewed as an environmentally friendly option. The technique minimizes the need for transporting materials off-site, which reduces carbon emissions associated with heavy vehicle use. Moreover, by enhancing the properties of the existing soil, it decreases the demand for non-renewable resources, such as aggregate materials, contributing to sustainable construction practices.
While evaluating the different suppliers make sure to check the following criteria:
1. Technical Expertise
Ensure the supplier has extensive experience in soil mixing technologies and methods suitable for your specific project needs.
2. Equipment Quality
Assess the quality, reliability, and maintenance history of the supplier's equipment to ensure consistent performance.
3. Material Compatibility
Verify that the supplier can handle the specific types of soil and additives involved in your project.
4. Project Portfolio
Review the supplier’s past projects to evaluate their success rate and the variety of challenges they have effectively managed.
5. Safety Standards
Confirm that the supplier adheres to the highest safety standards to protect workers and the environment during soil mixing operations.
6. Cost Efficiency
Consider the supplier's pricing structure to ensure it aligns with your project budget without compromising on quality or performance.
7. Customer Support
Lastly, gauge the level of customer support provided, including responsiveness and after-sales service, to ensure a smooth and effective partnership.
Soil mixing, a technique often utilized in construction, serves to stabilize ground conditions, making it a critical process in preparing sites for large-scale infrastructure projects. By blending soil with cementitious materials, it enhances the soil's bearing capacity and reduces its permeability, crucial for the foundation of bridges, roadways, and buildings. This application is especially beneficial in areas with weak soil, ensuring structural stability and longevity. In environmental remediation, soil mixing plays a vital role by incorporating binders that immobilize contaminants. Industries dealing with polluted land can employ this method to prevent the spread of hazardous substances, making the site safer for future use. This approach is particularly relevant for sectors like manufacturing and waste management, where soil contamination can pose significant health and environmental risks. Agriculture also benefits from soil mixing, albeit in a different context. By mechanically blending different soil types or adding organic matter, farmers can improve soil fertility and structure. This enhancement is crucial for optimizing crop yield and health, addressing the specific needs of various plants. This use case underscores the versatility of soil mixing, extending its benefits beyond construction and environmental sectors into agriculture, thereby supporting food production and sustainability efforts.
Soil mixing, a technique used for ground improvement, currently stands at a Technology Readiness Level (TRL) of 9, indicating it is fully mature and has been proven through successful deployment in operational environments. This high TRL is attributed to several technical factors. Firstly, soil mixing involves the blending of in-situ soil with cementitious materials to improve its physical and chemical properties, a process that has been refined and optimized through decades of research and field applications. The equipment and methodologies for soil mixing, including deep mixing methods and shallow mixing techniques, have undergone extensive development, leading to highly efficient and adaptable systems capable of handling a wide range of soil types and project requirements. Furthermore, the success of soil mixing in providing solutions for soil stabilization, contamination remediation, and foundation support has been well-documented in numerous case studies and projects worldwide, showcasing its reliability and effectiveness. The continuous innovation in mixing technology and materials, along with a comprehensive understanding of the interaction between treated soils and structural elements, has solidified soil mixing's status as a proven solution in the civil engineering and construction industries.
In the Short-Term, advancements in soil mixing technology are poised to focus on improving efficiency and reducing environmental impact. Innovations like precision mixing techniques and the integration of IoT sensors for real-time monitoring are expected. These developments aim to optimize the mix ratios on-the-go, ensuring better consistency and quality of the soil mix while minimizing waste. Looking into the Mid-Term, we anticipate the emergence of autonomous soil mixing machines. These systems, powered by AI and robotics, will be capable of operating with minimal human intervention, adapting to varying soil conditions and project requirements seamlessly. This phase will likely see an increased use of sustainable materials in the soil mixing process, further aligning with global environmental sustainability goals. In the Long-Term, the frontier of soil mixing technology will be reshaped by the integration of advanced materials science and biotechnology. The development of bioengineered soil additives, designed to enhance soil stability and nutrient content, will revolutionize the field. Additionally, the advent of 3D printing technologies in soil mixing processes will enable the construction of complex structures with optimized soil properties, paving the way for innovative applications in landscaping, agriculture, and construction.