Rebar Detectors for Accurate Installation of Reinforcement Bars
Introducing Our Rebar Detectors
- Our detectors have sophisticated data analysis software. It runs on multiple operating systems. This allows easy import, analysis, and management of rebar detection data.
- Support various detection modes, including stirrup avoidance detection, concave detection, and convex detection. This provides versatility to meet the demands of different working conditions.
- Our detectors have a user-friendly interface and intuitive controls. They are easy to use for project detection staff.
Our Rebar Detecting Products
Notebook
Studies
Inventory
Insights
Applications of Rebar Detectors
- General contractors rely on rebar detectors to measure rebar diameter and concrete cover. This ensures efficient construction processes and compliance with building codes and standards
- Civil engineering consultants use rebar detectors to evaluate the integrity of reinforced concrete elements. It enables informed decision-making and thorough structural assessments.
- Rebar locators ensure the structural integrity of bridges. They accurately locate reinforcement bars, assess their diameter, spacing, and concrete cover.
- During tunnel making, rebar detectors help identify and measure rebars in concrete walls and floors. This ensures safety and structural stability.
Product Comparison
Product name |
LR-G300 Integrated Rebar Scanner |
LR-G200 Integrated Rebar Scanner |
LR-G100 Rebar Detector |
LR-G150 Rebar Detector |
---|---|---|---|---|
Screen size |
3.5" |
3.2" |
5" |
5" |
Screen dot matrix |
640×480 |
320 x 240 |
854 x 480 |
854 x 480 |
Size of Host Machine |
210×95×120 |
235 x 120 x 130 |
200 x 125 x 50 |
200 x 125 x 50 |
Weight of Host Machine |
650g |
880g |
620 g |
620 g |
bluetooth |
Yes |
Yes |
No |
No |
Scanning Mode |
Quick/ Procedural /Grid / Fine / Complex/Wave |
Quick/ Profile / |
Quick |
Quick / Profile/ Grid |
Laser positioning |
Yes |
Yes |
No |
No |
Max range (mm)- 1st range |
1~120 |
1~105 |
6~90 |
6~90 |
Max range (mm)- 2nd range |
1~210 |
1~205 |
6~190 |
6~190 |
Max. allowable deviation on concrete cover depth - ±1(mm) |
1~80 |
1~80 |
6~80 |
6~80 |
Max. allowable deviation on concrete cover depth - ±2(mm) |
81~120 |
81~120 |
81~120 |
81~120 |
Max. allowable deviation on concrete cover depth - ±3(mm) |
121~160 |
121~160 |
121~140 |
121~140 |
Max. allowable deviation on concrete cover depth - ±4(mm) |
161~210 |
161~205 |
141~190 |
141~190 |
Uncover Structural Insights Today !
OEM/ODM Capabilities of LANGRY NDT
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Integrate your logo seamlessly onto the front-of-box label, nameplate, and user manual. Simply send us your logo file, and we'll handle the rest.
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Ensure everything meets your expectations. We'll send you a sample rebound hammer customized with your branding for approval before production begins.
Frequently Asked Questions
Frequently Asked Questions
A Testing Anvil Calibration Tool is a precision instrument used to calibrate rebound hammers, ensuring accurate and consistent testing results in various applications such as construction, geotechnical engineering, and materials testing.
Gather, systematize, and consolidate R&D information.
- Efficiently handle vast, interconnected datasets spanning a diverse range of biological molecules such as DNA, RNA, amino acids, proteins, and cell lines.
- Collaborate with diverse data formats including experimental data, operating protocols, and observations.
- Reduce potential hazards and offer data governance tools to regulate accessibility and ensure adherence to regulations.
Facilitate collaboration and knowledge-sharing among R&D teams.
- Speed up sequence design, oversee experiments, record outcomes, and monitor samples using a unified, comprehensive platform.
- Organize, oversee, and monitor interrelated tasks while having a real-time overview of the entire program's scope.
- Rapidly verify data and information across teams.