Electronic circuits/mechanical equipment/new materials/biomedical/automotive transportation/agricultural, forestry and geological applicationsFOTRIC research oriented professional infrared thermal imagerNetwork monitoring thermal imaging system, intelligent fire alarm thermal imaging camera, cloud thermal imaging data management system.

Actual case study of Fotoc X-Ti8 cloud thermal imaging
Location: XX Pharmaceutical Factory
Office main power control cabinet
Damaged cooling fan
Abnormal heating, temperature 76.8 ℃, please replace as soon as possible, otherwise it may cause electrical fires when the load and temperature rise in summer!

Actual case study of Fotoc X-Ti8 cloud thermal imaging
Factory air supply duct leakage
Normal part temperature is about 24 ℃
The temperature at the leakage site is about 15 ℃
Not conducive to energy conservation and consumption reduction in factories
Need to handle it as soon as possible!

Actual case study of Fotoc X-Ti8 cloud thermal imaging
Leakage of pipeline on the exterior wall of the factory building
The normal temperature of the exterior wall is about 21 ℃
The temperature at the leakage site is about 16 ℃
There are cold spots at the bottom of the exterior wall pipeline, which are preliminarily judged as leakage (blue arrow)
There are hot spots on the top of the exterior wall pipeline, which are preliminarily judged as poor insulation (yellow arrow)
Not conducive to energy conservation and consumption reduction in factories
Please arrange for processing as soon as possible!

Actual case study of Fotoc X-Ti8 cloud thermal imaging
Refrigeration unit water pump
The operating conditions of the two motors are the same, but the surface temperature of the stator of both motors does not increase. The surface temperature of motor 1 is about 13 ℃ higher than that of motor 2.
It is recommended to conduct regular thermal imaging inspections using cloud thermal imaging and establish a temperature rise trend chart for the motor, which can effectively predict the future state trend of the motor.

Actual case study of Fotoc X-Ti8 cloud thermal imaging
Three phase indicator lights in the control cabinet of the refrigeration unit
The temperature of the A/B phase indicator light exceeds 120 ℃
B is about 140 ℃, with an ambient temperature of about 37 ℃. As the ambient temperature and load increase, it is recommended to conduct regular thermal imaging inspections using cloud thermal imaging to establish a temperature rise trend chart for the control cabinet, which can effectively predict future state trends and prevent electrical fire risks.

Thermal imager
Diagnostic analysis knowledge
Data processing cost
Two substations require 77.5 hours of infrared precision inspection
Receive paper work orders
archival storage
On site photography
Classify and save photos of rush reports
Record photo number
And device number
Import all images
computer
Paper list typing
Convert to electronic list
Photo analysis, processing, and modification of photo names
(8 hours) (8 hours) (8 hours) (0.5 hours)
(1.5 hours) (40 hours) (1.5 hours) (5 hours) (3.5 hours)
How to diagnose (1.5 hours)?

The advantages of FotocX cloud thermal imaging over thermal imaging cameras
Cloud thermal imaging
Temperature measurement
imaging
working efficiency
data management
Intelligent diagnosis
trend forecast

FotocX Cloud Thermal Imaging PdmIR Thermal Imaging Data Management System
Tircloud cloud cloud service
Wi-Fi/4G Wi-Fi/4G
SD card/USB cable
The process is paperless, saving and environmentally friendly.
FotocX cloud thermal imaging
Hand auto integrated autofocus lens
One click quick autofocus
Manual/Automatic/Continuous
5.5-inch OLED screen
Microsecond response time
1920 × 1080 ultra-high definition resolution
Standard contrast: 1000000:1
170 ° screen viewing angle
Standard configuration includes three rechargeable lithium batteries
Single battery working time>5h
SD card/USB/HDMI
Wi Fi/4G/Bluetooth
FotocX cloud thermal imaging
180 ° rotatable lens
Industrial grade standard LED 500 lighting fill light, ten thousand pixel CCD camera, stable testing at any angle
Standard secondary red laser indicator
Standard 50 °× 38 ° wide-angle lens
FOTRIC composite color matching focusing imaging technology
FOTRIC High Temperature Difference Balanced Imaging Technology
FotocX's powerful temperature analysis function
16 point temperature measurement
16 boxes for temperature measurement
16 line temperature measurement
This machine supports adjustable partition emissivity
Cloud thermal imaging
Diagnostic analysis knowledge
Data processing cost
Wisdom Management
Equipment ledger management
Testing data management
Detection task management
Smart Diagnosis
Built in diagnostic rules and experience
Diagnose the current status of the equipment
'Hui' prediction
On site display of historical trends
Prevent potential hazards of equipment
'Hui' is ten times faster
Saved 90% of costs
One click generation of detection report
FotocX Cloud Thermal Imaging Innovation Function "Smart" Management
Equipment ledger management
Detection task management
The detection task can be imported into FotocX cloud thermal imaging
One click download task/upload task
Type-C USB 3.0 interface
Testing data management
FOTRIC structured search engine
FotocX cloud thermal imaging
AMP2E-1/6 capacitor compensation cabinet JPEG
AMP2E-1/6 capacitor compensation cabinet
Automatically name thermal imaging photos based on device QR codes.
Based on the device QR code, automatically jump to the tested device within the task.
Automatic naming of thermal imaging photos
One click automatic report generation
Automatically generate batch inspection reports based on dimensions such as device ledger, inspection tasks, defect types, etc
Support customized report formats
One click automatic report generation "Hui" is ten times faster
Fine inspection of 2 substations, cloud thermal imaging only takes 9 hours, saving 68.5 hours
Electronic Dispatch Order
archival storage
On site photography
Classify and save photos of rush reports
Record photo number
And device number
Import all images
computer
Paper list typing
Convert to electronic list
Photo analysis, processing, and modification of photo names
Automatic naming for on-site photography
On site one click download
One click upload of work orders and equipment lists on site
On site automatic analysis and diagnosis
(8 hours)
(0.5 hours) Automatic classification and saving
(Save 8 hours) (Save 8 hours) (Save 0.5 hours)
(Save 1.5 hours) (Save 39.5 hours) (Save 1.5 hours) (Save 5 hours) (Save 3.5 hours)
(0.5 hours)
(Save 1 hour)
Automatic classification archive thermal imager cloud thermal imaging
Save 90% of data processing costs
Accurate Inspection - Expert hourly wage of 150 yuan, technician hourly wage of 60 yuan
On site inspection: 8 hours x 150 yuan+8 hours x 60 yuan=1680 yuan
Data organization: 8 hours x 60 yuan x 2 people=960 yuan
Report and delivery: 40 hours x 150 yuan=6000 yuan
Total: 8640 yuan/inspection labor cost per time
Accurate Inspection - Expert hourly wage of 150 yuan, technician hourly wage of 60 yuan
On site inspection: 8 hours x 60 yuan=480 yuan
Data organization: 0 yuan
Report and delivery: 4 hours x 60 yuan=240 yuan
Total: 720 yuan/inspection labor cost per time

Data processing cost FOTRIC structured data engine
In 2014, the National Invention Program: FOTRIC's proprietary thermal imaging scene intelligent matching technology
Shooting template guidance function (accurate)
Diagnosis rule name (required) General defect diagnosis rule General defect diagnosis content Serious defect diagnosis rule Serious defect diagnosis content Urgent defect diagnosis rule Urgent defect diagnosis content
The connection between electrical equipment and metal components Max -. Min>15 area temperature difference is higher than degrees Celsius, suspected to be a general defect of 15 degrees Celsius The temperature in the Max>80 area is 80 degrees Celsius higher than the suspected serious defect Max>110 area temperature above degrees Celsius, suspected emergency defect 110 degrees Celsius
The connection between metal components Max -. Min>15 area temperature difference is higher than degrees Celsius, suspected to be a general defect of 15 degrees Celsius The temperature in the Max>90 area is 90 degrees Celsius higher than the suspected serious defect Max>130 area temperature above degrees Celsius, suspected emergency defect 130 degrees Celsius
Metal wires Max -. Min>15 area temperature difference is higher than 15 degrees Celsius, suspected to be a general defect The temperature in the Max>80 area is 80 degrees Celsius higher than the suspected serious defect Max>110 area temperature above degrees Celsius, suspected emergency defect 110 degrees Celsius
Connectors for transmission lines Max -. Min>15 area temperature difference is higher than 15 degrees Celsius, suspected to be a general defect The temperature in the Max>90 area is 90 degrees Celsius higher than the suspected serious defect Max>130 area temperature above degrees Celsius, suspected emergency defect 130 degrees Celsius
Isolating switch. Max -. Min>15 area temperature difference is higher than 15 degrees Celsius, suspected to be a general defect The temperature in the Max>90 area is 90 degrees Celsius higher than the suspected serious defect Max>130 area temperature above degrees Celsius, suspected emergency defect 130 degrees Celsius
Circuit breaker. Max -. Min>10 area temperature difference is higher than 10 degrees Celsius, suspected to be a general defect The temperature in the Max>55 area is 55 degrees Celsius higher than the suspected serious defect Max>80 area temperature higher than suspected emergency defect by 80 degrees Celsius
Internal connection of current transformer Max -. Min>10 area temperature difference is higher than 10 degrees Celsius, suspected to be a general defect The temperature in the Max>55 area is 55 degrees Celsius higher than the suspected serious defect Max>80 area temperature higher than suspected emergency defect by 80 degrees Celsius
Sleeve Max -. Min>10 area temperature difference is higher than 10 degrees Celsius, suspected to be a general defect The temperature in the Max>55 area is 55 degrees Celsius higher than the suspected serious defect Max>80 area temperature higher than suspected emergency defect by 80 degrees Celsius
capacitor. Max -. Min>10 area temperature difference is higher than 10 degrees Celsius, suspected to be a general defect The temperature in the Max>55 area is 55 degrees Celsius higher than the suspected serious defect Max>80 area temperature higher than suspected emergency defect by 80 degrees Celsius
Pre set diagnostic rules
industry
standard
expert
experience
manage
standard
FOTRIC structured
Data Engine
Smart Diagnosis
'Hui' predicts' Hui 'diagnoses
δ=（T1-T2)/(T1-T0)×100%=（75-46） /（75-20） ×100% ≈ 52%
Automatic calculation of relative temperature difference for diagnosing thermal failure of three-phase electrical joints
Testing equipment: DB416 feeder cabinet -3 # wiring terminal
Phase A at 45.7 ℃
Phase B 46.0 ℃
C phase 75.0 ℃
Three phase relative temperature difference ≥ 35% is a general defect, and thermal imaging inspection needs to be strengthened
Automatically call built-in standards to provide diagnostic conclusions and "smart" predictions
Predicting trends based on past detection data
Cloud thermal imaging
Diagnostic analysis knowledge
Data processing cost TirCloud cloud service
Customer A, customer B
Testing service company
Customer in C location
TirCloud cloud service
group company
Branch Office Branch Office
Support uploading, downloading, synchronizing, and sharing local and cloud data.
Cloud thermal imaging
Diagnostic analysis knowledge
Data processing cost
FotricX
Smart Diagnosis
Smart Management
Hui Kuai is ten times faster
Smart prediction
Wisdom Management
Equipment ledger management
Testing data management
Detection task management
Smart Diagnosis
Built in diagnostic rules and experience
Diagnose the current status of the equipment
'Hui' prediction
On site display of historical trends
Prevent potential hazards of equipment
'Hui' is ten times faster
Saved 90% of costs
One click generation of detection report
It's time to upgrade the FotocX cloud thermal imaging system to the FotocX cloud thermal imaging innovation feature!

FOTRIC research oriented professional infrared thermal imagerApplication industry field
1. Electronics, circuits, chips
Research on Heating of PFC Converter Circuit Board
Record using Fotoc 226 full platform thermal imager
Full radiation thermal imaging video of the entire power on process,
Can be replayed for temperature rise curve analysis, convenient for
Identify issues and improve the design.
Research on the heating of PFC converter circuit board
Skin Comfort Test for Electronic Product Network Access License
Long term answering of mobile phones can easily cause chronic burns
Using a thermal imager to detect the full power consumption of electronic products
Temperature changes over several hours of operation to evaluate skin comfort
Temperature directly affects the quality and service life of electronic products
Who can explain the reasoning behind it?
Thermal imagers have great potential for application in the field of electronics
Introduce the application of thermal imaging cameras in the electronics industry from the perspective of the industrial chain, with chips as the object.
The current industrial mass-produced chips are all semiconductors
Junction Temperature
The operating temperature of the PN junction in the internal wafer/die of semiconductor chips. It is usually higher than the shell temperature and
Surface temperature of the device.
The maximum operating junction temperature refers to the temperature at which both P-type and N-type semiconductors undergo changes
The junction temperature at which the PN junction barrier disappears and the device cannot function properly for intrinsic semiconductors. (Product)
It is included in the manual
Calculation of junction temperature
Tj=Ta+( R θJA × PD )
Ta=ambient temperature/surface temperature (℃)
R θ JA=Thermal resistance from P-N junction to environment (℃/W) - The manual can be found
PD=power consumption (W)
How to ensure that the internal junction temperature is within the maximum junction temperature range
1. Reduce surface temperature/ambient temperature
2. Reduce the thermal resistance of P/N junction to the environment
3. Reduce power consumption
Application of thermal imaging camera in circuit board development and testing
Thermal imager detects the surface of all chips when the circuit board is working
Temperature distribution
With the help of the junction temperature formula, the internal temperature of the chip can be calculated as
Is it within the maximum allowable value
What measures should be taken if the calculated value exceeds the maximum junction temperature
Fan: increases air flow and lowers ambient temperature
Heat sink: reduce the thermal resistance of P/N junction to the environment
Reduce power consumption: lower the processing speed of the chip
Chip replacement: Replacing with a new one can provide a better chip
Structural adjustment: Optimize PCB layout and shell structure
material analysis
Comparative analysis of heat dissipation effects of different copper/aluminum materials
Analysis of heat dissipation efficiency of heat sink
Comparative analysis of heat dissipation effects of different structural designs
Generally speaking, under the same temperature of the chip
The higher the temperature of the heat sink, the better the thermal conductivity
Thermal imagers can help customers quickly locate areas that need optimization
Quickly validate and evaluate the optimized results
Select the lowest cost solution while meeting the usage conditions
Significantly improve product development speed while saving significant costs for subsequent production
With the help of a macro mirror, a thermal imager can visualize the surface of a chip
Clear imaging of temperature micro distribution
Barrel effect: The quality of a product is determined by its weakest link
Identify abnormal high-temperature areas on the chip, evaluate the reliability of the chip, and provide reference for subsequent design optimization of the chip
Application of thermal imaging camera in chip development and testing
I come into daily contact with pre packaged chips
The junction temperature formula is based on theoretical calculations and has certain limitations
High reliability industrial/industrial chips require direct visibility of the internal temperature
Thermal imager detects the internal temperature of unpackaged chips
Test the resonant beam temperature of the pressure sensor
Using FOTRIC 226 with a 50 micron macro mirror for observation
Observe the temperature distribution of the pressure sensor before packaging
Unpackaged chips
Research and application in the field of electronic technology
Application Customer Customer
Electronic product heat dissipation test
Xi'an Institute of Physical and Chemical Technology, Chinese Academy of Sciences
China Radio Propagation Research Institute Qingdao Branch Youli Medical Technology (Shanghai) Co., Ltd
Yituo Electrical Accessories Co., Ltd. Wuxi Leihua Network Technology Co., Ltd
Circuit board testing
Cisco Systems (China) R&D Co., Ltd. China Shipbuilding Industry Corporation No. 726 Research Institute
Shenzhen Advanced Technology Research Institute Shenzhen Baoqianli Electronics Co., Ltd
Shanghai Ericsson Electronics Co., Ltd. Jiangyin Xinbang Electronics Co., Ltd
Huazhong University of Science and Technology - School of Energy Hangzhou Haifeng Electronic Technology
Chengdu Institute of Optoelectronics, Dalian University of Technology - School of Electronic Science and Technology
Electronic cigarette temperature detection Shenzhen Jishi Technology Co., Ltd

Research and application in the field of electronic technology
Application Customer Customer
Sensor testing/heat dissipation research Nanjing Institute of Science and Technology Engineering Data Technology Co., Ltd. Zhejiang University of Science and Technology - School of Internet of Things
Chip/Microchip Testing Hangzhou Shilan Integrated Circuit Co., Ltd. Chengdu Tiancheng Hechuang Technology Co., Ltd
Xi'an Jiaotong University - School of Mechanical Engineering - Wuhan University of Engineering - Chemical and Environmental Engineering
Research on Heat Dissipation of LED Display Screen Nanjing Lop Co., Ltd. Shanghai Hehui Optoelectronics Co., Ltd
Electric heating rod heating test Jiangyin Guohao Electric Heating Appliance Manufacturing Co., Ltd
Heating Product Research Xinghua Shuanglong Electric Heating Appliance Co., Ltd
Semiconductor junction temperature testing, 13th Research Institute of China Electronics Technology Group Corporation
Human Skin Comfort Test Shenzhen Sanger Technology Co., Ltd. Dongguan Tianruixiang Communication Technology Co., Ltd
IGBT Reliability Testing Key Laboratory of Electromagnetic Field and Electrical Reliability, Hebei University of Technology

2. Mechanical and Materials Science
material analysis
Polymer materials are polymers synthesized from monomers.
During the molding process, polymers may be affected by changes in temperature, pressure, stress, and reaction time. Affects the structure and quality of materials.
A thermal imager can observe temperature changes during the synthesis process to ensure the quality of the composite.
Temperature control of polymer material reaction
Research on the Thermal Effect of Rock Stress
FOCRIC 220 full platform thermal imager records rock samples
The entire process of applying pressure to the press until it breaks.
The recorded instantaneous thermal stress and temperature field data of the rock, combined with the pressure curve data of the press, optimize the theoretical derivation of the differential equation of thermal conductivity inside the rock.
stress analysis
Thermal stress mapping technology can provide thousands of stress measurement results simultaneously, even for components with complex geometric shapes. Compared to strain gauges, this technology can provide researchers with faster and more complete information.
composite material
Thermal imaging non-destructive testing can detect internal defects by exciting the target and observing the thermal difference on the target surface.
It is a valuable tool for detecting voids, delamination, and moisture inclusions in composite materials.
energy research
Study on the evaporation of deionized water droplets on special material panels using a thermal imager combined with a 50 micron macro mirror
composite material

Research and Application of Machinery and Materials
Application Customer Customer
Asphalt temperature detection
AVIC Lutong Industrial Co., Ltd. Zhengzhou University - School of Civil Engineering
Shandong Expressway Construction Group Co., Ltd., Highway Science Research Institute of the Ministry of Transport
Northeast Forestry University - Road and Railway Engineering Gansu Provincial Highway Aviation Tourism Investment Group Co., Ltd
Key Laboratory of Special Area Highway Engineering, Ministry of Education, Chang'an University
Key Laboratory of Road Construction Technology and Equipment, Ministry of Education, Chang'an University
Key Laboratory of Road Structure and Materials Transportation Industry, Changsha University of Science and Technology
Fire resistance, insulation and insulation material testing
Zhangjiagang Pohang Refractory Materials Co., Ltd. Suzhou Youluo Environmental Protection Purification Materials Co., Ltd
NGK (Suzhou) Fine Ceramics Co., Ltd. Tainuo Fengbaotai (Suzhou) Thermal Insulation Materials Co., Ltd
Bearing Research Shanghai Bearing Research Institute - School of Mechanical Engineering, Shanghai University of Technology
Institute of Trilogy, Hefei University of Technology
Research and Development of Metal Materials, School of Materials Science, ShanghaiTech University
Clothing Warmth Performance Test GORE-TEX Jiaxing Yunlong Clothing Co., Ltd

Research and Application of Machinery and Materials
Application Customer Customer
Research on Rock Stress, School of Mining Engineering, China University of Mining and Technology
Research on Granite Rockburst at the School of Mining Engineering, North China University of Science and Technology
Metal Wire Micro inspection Institute of Metals, Chinese Academy of Sciences
New Material Testing Chinese Academy of Sciences Chengdu Organic Chemistry Co., Ltd. University of Electronic Science and Technology - College of Machinery
Anhui Xirui 3D Printing Technology Co., Ltd. Inner Mongolia Keyun Environmental Protection Materials Co., Ltd
Implant device material testing Zhejiang University of Technology - School of Mechanical Engineering
Research on Carbon Composite Materials at Shanghai University
NDT
Turbine blades, aviation materials
Armored Corps Engineering College Equipment Remanufacturing Technology Country
Key Laboratory of Defense Technology
Harbin Institute of Technology - School of Mechanical and Electrical Engineering
Northwestern Polytechnical University - School of Aeronautics
Research on Heat Dissipation Materials Huizhou Deshipu New Materials Co., Ltd
Research on the Melting of Cementitious Crude Oil at Northeast Petroleum University - School of Civil and Architectural Engineering

Research and Application of Machinery and Materials
Application Customer Customer
Research on Cutting and Grinding Wheel Grinding at Qingdao University of Technology - School of Mechanical Engineering, Northeastern University - School of Mechanical Engineering and Automation
School of Mechanical and Electrical Engineering, Nanjing University of Aeronautics and Astronautics, Hubei University of Arts and Sciences - School of Mechanical and Automotive Engineering
School of Aerospace Forces, Taiyuan University of Technology - School of Mechanical Engineering
China University of Mining and Technology
Research on Material Fatigue
(Riveted structure, steel structure
Aluminum metal)
Weifang Engineering Vocational College, College of Applied Sciences, Taiyuan University of Science and Technology,
Taiyuan University of Technology School of Materials Science Jilin University - School of Mechanical Engineering
Changchun University - School of Mechanical Engineering
Research on Cooling of Turbine Blades - Professor of Power Machinery and Engineering at Shanghai Jiao Tong University
Key Laboratory of the Ministry of Education
Institute of Engineering Thermophysics, Chinese Academy of Sciences
Welding research
Key Discipline Laboratory of Digitalization of Aerospace Manufacturing Technology and National Defense, Shenyang University of Aeronautics and Astronautics
Beijing Institute of Aeronautical Manufacturing Engineering High Energy Beam Key Laboratory
Beihang University - School of Mechanical Engineering and Automation
Xi'an Jiaotong University - School of Mechanical Engineering

3. Medicine
Photothermal targeted therapy for tumors
Photothermal Therapy
Photothermal therapy is mainly targeted therapy for epithelial cell carcinogenesis. The FOTRIC 220 series full platform thermal imager is used to record the temperature rise process of tumor targeted therapy.
Compare and analyze the types, concentrations, laser intensity, irradiation time, and cancer cell inactivation of materials to evaluate the therapeutic effect.
The School of Medicine, School of Materials Science, School of Nanotechnology, Life Sciences, etc. all have research possibilities
Research on Targeted Nanomaterials
The combination of Fotoc 226 and a 50 micron microscope allows for interference free study and comparison of the photothermal conversion efficiency of different nanomaterials.
The School of Materials Science and the School of Nano Research both have research in this area

Research and application in the field of medicine
Application Customer Customer
Nano gold photothermal study
Suzhou University, Shanghai Jiao Tong University - School of Materials Science and Engineering
Shandong University - School of Materials Science, Jiangnan University
Donghua University - School of Materials Science
Tumor photothermal therapy at Shanghai University of Traditional Chinese Medicine - Shanghai Pengqing Biotechnology Co., Ltd
Second Medical University - Institute of Oncology Shanghai Jiao Tong University - School of Materials Science and Engineering

4. Research on human physiology
Research on Physical Examination and Exercise Testing
Thermal imaging can be used to diagnose issues such as lumbar muscle strain, muscle strain, and wound inflammation, and is suitable for physical examinations or emergency testing and treatment of athletes.
Usually, the temperature of the inflamed area is relatively high
Lumbar muscle strain and knee inflammation
Sports physiological index testing
Athletes need to establish physiological index files and collect parameters such as electrocardiogram during pedaling and other sports. Simultaneously use thermal imaging to observe changes in facial heat dissipation and respiratory temperature.
Chronic muscle fatigue and rigidity
Long term maintenance of a movement or repetitive training of athletes may cause chronic muscle rigidity, usually through the use of high-frequency vibration mass.
Originally, it relied on the patient's sensation to confirm the location or receive extensive treatment. Using thermal imaging can scientifically confirm problem points and accurately treat them.
The thermal imager for pre pathological examination and assistance diagnosis can be used for pre pathological examination, such as breast cancer detection. Regular thermal imaging testing can detect and treat early-stage cancers, especially in situ cancers with surface cancer
Very suitable, difficult to discover in other ways.
Research on Rehabilitation of Burn Diseases
The recovery status can be determined by detecting the temperature of the burned area of the patient through a thermal imager.
Due to vascular necrosis, the temperature of the burned area is generally lower, and the temperature at the site where blood circulation is restored will increase.
Study on Thermal Conductivity of Dental Gum Root Canal Materials
A new material for filling nerve cavities in tooth roots using thermal imaging technology requires low-temperature melting, not exceeding 47 ℃, to detect the surface temperature of specialized heating probes and the materials used by the probes inside the teeth
The temperature of the tooth surface during melting.
Research and application of human physiology
Application Customer Customer
Cardiovascular and body temperature testing at the Second Affiliated Hospital of Chongqing Medical University
Moxibustion Research/acupuncture and moxibustion Research
Fujian University of Traditional Chinese Medicine
Acupuncture and moxibustion Department of Ningbo Traditional Chinese Medicine Hospital * Affiliated Hospital of Guangxi University of Traditional Chinese Medicine
South China Normal University - Institute of Biophotonics
Thermal Imaging Study of Shoulder Periarthritis at Tianjin University of Traditional Chinese Medicine
Sichuan Province Integrated Traditional Chinese and Western Medicine Hospital for Sub Health Research
Athletes' physical fatigue test - Shenyang Sport University - School of Sports Human Sciences
Research on Human Physiology Jiangxi University of Traditional Chinese Medicine Beijing University of Traditional Chinese Medicine School of Basic Medicine
Burn Rehabilitation Testing at Jiangsu University Affiliated Hospital
Medical Application: Nanyang Institute of National Defense Technology and Industrial Electrical Research, Henan Province
Research and application of human physiology
Application Customer Customer
Key Research Office of acupuncture and moxibustion Characteristic Therapy Evaluation of the State Administration of Traditional Chinese Medicine
Research on thermal imaging detection of lumbar disc herniation at Hunan Provincial Institute of Traditional Chinese Medicine Affiliated Hospital
Thermal tomography tumor diagnosis, School of Biomedical Engineering, Hubei University of Science and Technology
Breast Tumor Research, Department of Ultrasound Imaging, Fujian Medical University Affiliated Hospital, Key Laboratory of Medical Optoelectronics Science and Technology, Ministry of Education
Diagnosis of Breast Tumors by Thermal Tomography: Ultrasound Diagnosis Department of Jiefang General Hospital, Ultrasound Department of West China Hospital, Sichuan University
Study on mobile phone radiation and ear temperature acupuncture and moxibustion and massage college of liaoning university of traditional chinese medicine

5. Lighting
Analysis of Temperature and Heat Dissipation of LED Bubble Shell
By using a thermal imager to detect the temperature of the LED bulb casing, analyze the heat dissipation situation, and assist in designing and modifying the LED bulb casing to enhance its heat dissipation capability.
Uniformity of LED bead heating
Detect the uniform heating of LED beads. Assist in product design, arrange heating components reasonably, prevent local overheating, and shorten product lifespan. Zeng Qiang's heat dissipation
Ability to effectively prevent overheating.
Lighting research and development application
Application customers
Research on Heat Dissipation of LED Lighting
Zhongshan Jiyi Lighting
Suzhou Tianze New Energy Co., Ltd
Ningbo Longyuan Lighting Appliance Co., Ltd
Yantai Aoxing Electric Appliance Co., Ltd
Shenzhen Sicamp Technology Co., Ltd
Ningbo Ledeshi Electric Appliance Co., Ltd

6. Automobiles
Rear hot air glass heating wire detection
Check whether the heating wire of the rear windshield is broken or loose. Ensure uniform temperature distribution and enhance defogging ability.
And the rear windshield is made of tempered glass, which is sturdy but relatively brittle. The stress generated by uneven temperature may cause deformation or fracture of glass for a long time, and in special circumstances, it may
Can cause harm.
Providing windows to high-end car manufacturers requires such testing.
Tire inspection
Long term durability testing of tires and extreme testing such as high-speed and braking tests. Ensure the stability of tires in different situations to ensure driving safety.
Research on New Energy Vehicles
Thermal imagers can be applied to the research and development of high-performance electric racing cars and solar powered vehicles.
car design
Can also be used for
Research on engine defects and heat dissipation, bearing and exhaust pipe testing, air tightness of car doors and windows, seat heating and air conditioning design, car light heat dissipation, car circuit heating, brake pad testing, airbag layout, etc
Lighting research and development application
Application customers
Vehicle Safety Analysis Xi'an Institute of Optics and Precision Machinery, Chinese Academy of Sciences
Research on Human Comfort of Automotive Air Conditioning Changchun FAW Car R&D Center Shanghai General Motors
Glass Heating Wire Testing Tianjin Nippon Safety Glass Co., Ltd. (TSG)
Automotive Electronic Circuit Testing Suzhou Zhudian Automotive Electronic Wire Industry Co., Ltd. Chery Jaguar Land Rover Automotive Co., Ltd
Research on Heat Dissipation of Automotive Seats Ningbo Desco Electronic Technology Co., Ltd
Transmission Temperature Test Changzhou Dongfeng Continuously Variable Transmission Co., Ltd
Automotive Material Testing - School of Transportation, Beihang University
Auto Parts/Parts Molds Huzhou Anda Auto Parts Co., Ltd. Shanghai General Motors Dongyue Automobile Co., Ltd

7. Modern Agriculture
Egg hatching survival status detection
Observe the thermal distribution of eggs through a thermal imager, and quickly detect the survival status of eggs through different temperatures.
The circular low-temperature part on the egg in the picture is the egg's chamber, and the entire egg may have died due to its low temperature.
Animal husbandry and veterinary research
Animal husbandry and veterinary research determines the physical condition of animals and whether there are any lesions by testing their body temperature. Assess the inflammation and other conditions of the wound. Test the temperature changes after taking the medication to determine the efficacy.
At the same time, it can quickly determine whether cows and other animals are currently suitable for milk collection.
Research on drought tolerant crops
The drought tolerant gene is spliced into Arabidopsis, and improved varieties with drought tolerant genes experience temperature increases due to reduced transpiration.
arabidopsis
Breeding of cold resistant crops
Spring frost can be fatal to many growing plants. They can have a destructive impact on agricultural production and thus increase consumer prices.
Scientists cultivate the cold resistance of crops.
Application in Food and Agriculture Direction
Application customers
Cotton moisture thermal imaging test at Shihezi University - Crop Cultivation and Tillage
Institute of Irrigation, Chinese Academy of Agricultural Sciences
Qiongzhou University of Science and Engineering (Sanya) College of Food Safety Research
Food and Nutrition Development Research Institute of the Ministry of Agriculture
Protein Microwave Heating Analysis, School of Food Science, Nanchang University
Cow disease testing
China Agricultural University - School of Water Resources and Civil Engineering
Modern Agricultural Equipment Research Institute, School of Mechanical and Electrical Engineering, Fujian Agriculture and Forestry University
Baiyingchuang Biotechnology (Beijing) Co., Ltd
Animal Disease Testing Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences
Research on Drought tolerant Rice Varieties at the Institute of Cultivation and Cultivation, Heilongjiang Academy of Agricultural Sciences

8. Animal Protection
Animal Protection
Inflammation of the tail of the Yangtze finless porpoise
Institute of Hydrobiology, Chinese Academy of Sciences

9. Geology
Frozen soil research
Frozen soil is a type of land condition where the soil is at or below freezing point. Frozen soil areas are difficult to utilize, and construction of buildings, roads, and railways is challenging. Moreover, the melting of permafrost can cause roads to become twisted or damaged.
Thermal imagers can allow us to see the surface temperature and distribution of frozen soil layers, and can also be used to support mining and tunnel construction projects in frozen soil areas.
Volcanic geological activity
Studying volcanic activity allows one to observe the thermal distribution and temperature of volcanoes from a safe distance.
Geological research applications
Application customers
Research on Coal Mine Spontaneous Combustion: Institute of Land Reclamation and Ecological Reconstruction, School of Earth Science and Surveying Engineering, China University of Mining and Technology (Beijing)
Geological Survey Tianjin Aerospace Zhongwei Data System Technology Co., Ltd
Guangzhou Institute of Geography
Coal Mine Research Group Shenyang Research Institute Co., Ltd
Research on Concrete Deformation, School of Safety Engineering, China University of Mining and Technology
Research on the Protection of Rock Paintings: Surveying and Mapping Department of Liaoning Provincial Vocational College of Transportation

10. New energy
Research and Testing of Solar Panels
The thermal distribution of solar panels can be observed through a thermal imager
The fabric situation helps us improve the design. also
Quickly search for bad pixels and detect heat.
Geological research applications
Application customers
New Energy Battery Charging and Discharging Test Tianjin Zhongju New Energy Technology Co., Ltd
SMVIC
State Key Laboratory of Explosion Science and Technology, Beijing University of Technology
Solar panel testing by Dongfang Risheng New Energy Co., Ltd
Xi'an Jiaotong University