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.
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
-
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.
-
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
This tool locates and assesses rebars in concrete structures. It checks the position, distribution, and condition of the rebars. It helps engineers and inspectors evaluate the integrity and quality of concrete elements.
A rebar locator typically uses electromagnetic or ground-penetrating radar technology to detect the presence of rebar within concrete. It emits signals that penetrate the concrete. It detects and analyzes the reflections from the rebar to find their position, depth, and spacing.
Rebar detectors can inspect many concrete structures. These include buildings, bridges, tunnels, dams, and infrastructure elements like roadways and foundations.
The calibration frequency of rebar scanners depends on various factors. These include usage frequency, environmental conditions, and manufacturer recommendations. It is best to calibrate the device regularly, typically annually. This ensures accurate and reliable results.
Multiple factors can affect the measurement results of the concrete cover thickness of reinforcement, and certain conditions must be met to ensure accurate measurements. For details, please refer to the blog blow.
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.
Suitable solutions for your research needs
