International Conference | Hengxiang Hongye to Present at the International Geotechnical Innovation Conference(IGIC)

0
424

From 30 to 31 October 2024, the International Geotechnical Innovation Conference (IGIC) will take place at the Le Méridien Dubai Hotel & Conference Centre in Dubai, United Arab Emirates. Supported by Dubai Municipality and co-organized by GM EVENTS, with academic collaboration from Abu Dhabi University and Khalifa University. The conference is the leading geotechnical event in MENA region. The primary purpose of the conference is to optimize geotechnical and underground construction practices in the MENA region.

Le Méridien Dubai Hotel & Conference Centre 

Le Méridien Dubai Hotel & Conference Centre

IGIC UAE has attracted over 400 delegates from more than 20 different countries. The delegates include senior executives from geotechnical engineering, infrastructure, public facilities, technical services and other companies as well as government agencies, geo-technical and civil engineers, real-estate developers, general contractors and other stakeholders. The event features over 50 sponsors and partners, among which Hengxiang Hongye ranked as the gold sponsor and official partner.

IGIC UAE 

Dubai, UAE - With UAE's construction industry estimated at USD 640 billion  and at the wider GCC region recording more than USD 2.7 trillion worth of projects,the burgeoning construction sector of the desert nations requires a wide range of geotechnical construction services.

Successful construction of underground infrastructures and deep foundations in the Middle East soil requires innovative practices and advanced technologies in geotechnical engineering, ground improvement solutions, optimal design and construction methods for deep foundations. The desert soil provide an intimidating environment, demanding meticulous planning and execution to ensure safe, sustainable and long-lasting structures.

IGIC UAE caters to the country’s geotechnical and civil engineering community to address the plethora of challenges faced during the design and construction of deep foundations for infrastructure and other mega construction projects in the Gulf region. The Conference will bring together leading minds from the region and around world to provide best practices.

The conference will also hold an international exhibition and an exclusive seminar on Energy Geostructures and Infrastructure", showcasing the latest technologies and equipment in geotechnical engineering, including foundation improvement solutions, geosynthetics, and remote sensing technologies. Among the exhibitors, Beijing Hengxiang Hongye Soil and Foundation Improvement Technology Co., Ltd. is one of the leading exhibitors. Prof. Xuedong Cui the CEO of Hengxiang Hongye, will attend the conference.

Hengxiang Exhibition Stand 

Hengxiang Hongye has the world's leading and latest foundation subsidence repair technology. Our engineers will provide a detailed overview of the building foundation subsidence repair solution - non-destructive controllable soil solidification technology for the visitors from all over the world at Hengxiang Hongye's exhibition stand(No.23/24/29/30), showing the animation videos of technical principle as well as models of high-rise buildings and oil tanks with foundation subsidence repair. We are committed to improve the global building foundation subsidence repair model with minimally invasive technology and realizing buildings flexible lifting.

foundation subsidence repair technology 

We use our unique proprietary inorganic materials injection technology solution. Our expert foundation engineers would drill small holes in the ground and inject the inorganic material slurry into them. Once underground, the inorganic material slurry follows the path of least resistance, filling and consolidating all of the gaps, compacting the soil and gradually lifting the ground. This process is carefully and intelligently monitored by lasers to ensure absolute precision. The whole process can be completed in 10-30 days.

high-rising building lifting 

Whether it’s a residential, commercial property or large scale infrastructure, Hengxiang Hongye’s fast, economical and innovative solutions can stabilize the ground, fill voids and lift slabs with barely no damage. Repair construction will not affect production or people life's and activities, and efficiently solves foundation settlement problems of civil buildings, industrial buildings, public buildings and infrastructures.

At this conference, Hengxiang Hongye will provide world-leading deep foundation improvement solutions for high-rise buildings and large equipment, addressing the numerous geotechnical challenges commonly found in the arid desert soils of the Middle East. These solutions also target foundation settlement repair challenges encountered after the completion of skyscrapers, rail & road infrastructure, and energy infrastructure projects in major global cities. The aim is to promote breakthroughs in building foundation repair technology, providing a safer and more stable living and working environments for people.

Αναζήτηση
Κατηγορίες
Διαβάζω περισσότερα
άλλο
Candace Owens, sell out has been kicked out!
Tarique Nasheed says never take a bootlicker back!😅...
από BeulahO 2024-03-25 16:23:00 0 4χλμ.
Παιχνίδια
MMOexp: How to Get a Head Start After Entering the Game? - Best Currency Farming Tips
Welcome to the realm of Night Crows Diamonds, where exploration and adventure await at every...
από Myramillan 2024-08-13 01:03:24 0 1χλμ.
άλλο
Онлайн игорные салоны для проведения отдыха
В последнее время вселенная азартных развлечений прошла сквозь большие изменения за счет...
από business 2024-11-01 15:46:01 0 308
άλλο
How Operational Amplifiers Work
Definition and Basic Concepts Operational amplifiers, commonly known as op-amps, are vital...
από miawuxi2023 2024-10-18 01:08:28 0 470
άλλο
Exploring the Versatility of Extruded EVA Vacuum Hose for Pool Cleaning
Welcome to Ningbo Waterline Pool Appliance Co.,Ltd., your go-to source for all things related to...
από miawuxi2023 2024-06-25 09:17:22 0 1χλμ.