List of Surveying, measuring and analysis equipment products
- classification:Surveying, measuring and analysis equipment
1126~1170 item / All 14308 items
Are you putting off the "soundproofing and sound absorption" in your office? We are offering a document that explains the key points for improvement and the issues that can be resolved.
- Soundproofing/Shielding Unit
It can be quickly implemented in existing facilities such as outdoor areas and lockers where securing power is difficult. Rental options help reduce the costs of implementation and operation.
- Attendance management system
Automatic detection of tile lifting using AI. Contributing to cost reduction and quality improvement on-site.
- Other analytical equipment
Automatic measurement of parking lot cracks with AI. Reducing survey costs.
- Other analytical equipment
Automating the measurement of cracks in bridges with AI to streamline inspection operations.
- Other analytical equipment
Automated measurement of cracks in infrastructure structures using AI to streamline maintenance management.
- Other analytical equipment
Automatic crack detection with AI. Contributing to labor reduction and cost savings in inspection work.
- Other analytical equipment
Significant efficiency improvements with automatic correction and synthesis! "Crack detection and selection" and "crack width classification analysis" are now possible.
- Other analytical equipment
Do not rely on the "intuition and experience" of veterans. Visualize subtle load changes in real-time during jacking up. Achieve safe construction through hydraulic monitoring.
- Other measuring instruments
It does not miss even the slightest load imbalance. A safety management system that identifies risk factors in the unstable jacking-up process in advance to thoroughly prevent serious accidents.
- Other measuring instruments
Scientifying craftsmanship. A liquid pressure monitoring system that visualizes load changes during jack operation and digitizes the know-how of veterans into 'numbers'.
- Other measuring instruments
Even for bridges with long spans, load management is completed on a single screen. A system that synchronizes multiple jacks to minimize stress on the structure.
- Other measuring instruments
The era of allocating personnel for load monitoring is coming to an end. An efficiency solution that automates measurement, recording, and alerts, enabling personnel to focus on core tasks.
- Other measuring instruments
Objectively prove the construction of "as planned." Compare and manage in real-time the target load anticipated during the design phase with the actual pressure and load during the jacking-up process.
- Other measuring instruments
Instantly identify "when, where, and what" abnormal changes in the jack's pressure, load, and displacement occurred. Enable rapid investigation and response to issues!
- Other measuring instruments
A technology that proves safety, labor-saving, and quality improvement with objective data, directly linked to an increase in evaluation points in competitive bidding.
- Other measuring instruments
Leave data recording and remote monitoring to us. Portable × installed hybrid DO meter.
- Water quality/pH measuring device
- Other analytical equipment
The contact part with the sample consists only of the container and the rotor. Measurements are taken without contact with the main body of the equipment. While offering high precision, it is availabl...
- Other analytical equipment
Reduce the risk of building collapse! Explanation of the differences in wireless inclinometers.
- Other measuring instruments
What is the difference of a wireless inclinometer that contributes to the precision management of plant piping?
- Other measuring instruments
What are the differences in wireless inclinometers that are useful for monitoring the basic tilt of wind power generation?
- Other measuring instruments
Advantages and disadvantages of wireless inclinometers in the installation of solar power generation mounting systems.
- Other measuring instruments
Explanation of the differences in wireless methods of wireless inclinometers used at construction sites and similar locations.
- Other measuring instruments
Advantages and disadvantages of wireless inclinometers in monitoring mine slopes.
- Other measuring instruments
Explaining the advantages and disadvantages of wireless inclinometers in railway maintenance.
- Other measuring instruments
Explaining the differences of wireless inclinometers that assist in monitoring the structural integrity of dams.
- Other measuring instruments
How to Choose a Wireless Inclinometer that Contributes to Ground Stability in Tunnel Construction
- Other measuring instruments
Explaining the differences of wireless inclinometers useful for monitoring bridge displacements.
- Other measuring instruments
Explaining the differences of wireless inclinometers useful for safety management at construction sites.
- Other measuring instruments
The heterogeneity of the sample governs the model design.
- Other analytical equipment
- Analysis and prediction system
Performance that surpasses manual work in the same environment as manual work: grinding + stirring + mixing + kneading = synergistic effect through simultaneous operations.
- Batteries and Capacitors
- Other analytical equipment
Deaeration of the paste can be easily performed. You can leave the deaeration of heat sinks and other items to us. It is also possible to conduct tests while heating and deaerating.
- Manufacturing Equipment
- Other analytical equipment
- others
This is the Ishikawa-type mixing and grinding machine, which is widely used not only for the mixing, blending, and kneading of ointments but also for the grinding, stirring, and dispersing of medicina...
- Other analytical equipment
- Other Batteries
■ Crushing while heating in a vacuum is possible ・Heating temperature up to 120℃ ・Can also be used as a rotary evaporator
- Other analytical equipment
- Manufacturing Equipment
It is possible to grind while heating (maximum temperature: 180°C) and cooling (minimum temperature: -20°C) in a vacuum.
- Other analytical equipment
- Manufacturing Equipment
- The use of stainless steel bowls improves thermal responsiveness, allowing for rapid heating and processing. - By spraying zirconia onto stainless steel, it achieves processing performance equival...
- Other analytical equipment
- Manufacturing Equipment
- The root model of the Ishikawa-type mixing and grinding machine - Leave the "mixing," "grinding," "blending," and "kneading" to the Ishikawa-type mixing and grinding machine.
- Other analytical equipment
- Manufacturing Equipment
The electrode materials for all-solid-state batteries, such as lithium, sulfur, silicon, and carbon (Ketjenblack), are suitable for processing and kneading the electrolytes of ion batteries.
- Manufacturing Equipment
- Other analytical equipment
Can grind even 0.5g of material. Can be used in glove boxes and draft chambers due to its ultra-compact size. Equipped with a timer and speed adjustment function.
- Manufacturing Equipment
- Other analytical equipment
We have started selling the new product Tiny plus (ultra-compact desktop model).
On September 11, 2024, we began selling the new product Tiny Plus. It enhances the existing Tiny product by adding a timer function and a rotation speed adjustment feature. 【Features】 - Maintains the basic performance of the Ishikawa-style mixing and grinding machine while achieving a minimal size. - Processing volume is 0.03 liters. - An automatic mortar and pestle ideal for researchers and developers who perform grinding tasks manually. - The pestle has a built-in spring, allowing for mixing and grinding under pressure. - Equipped with a timer, enabling multitasking while grinding. - Features a rotation speed adjustment function, allowing grinding under various conditions. - Includes LED lighting for easy monitoring of processing status. - Designed for easy mobility and storage with a detachable AC cord. - Improved chemical resistance due to the use of a stainless steel casing, expanding its applications in laboratories and clean rooms. - Comes standard with an acrylic cover for splash prevention and safe handling. - Ultra-compact and tabletop design allows for use in fume hoods and glove boxes, making it possible to grind substances containing organic solvents, provided the cover material is selected appropriately.
Ideal for tabletop experiments. It employs a mechanism that forcibly rotates the pestle with a motor, providing higher grinding performance. Suitable for the dispersion, mixing, crushing, and disinteg...
- Manufacturing Equipment
- Other analytical equipment
- It is possible to grind a few grams of materials. - Due to its compact size, grinding in an argon gas atmosphere inside a glove box is also possible.
- Other analytical equipment
- Manufacturing Equipment
Ishikawa-type mixing and crushing machine capable of stirring and grinding materials containing molten substances while heating.
- Manufacturing Equipment
- Other analytical equipment
Automation of porcelain mortar (mortar) and porcelain pestle (pestle). Ideal for a wide range of applications including stirring, grinding, kneading, and mixing in food, pharmaceuticals, chemicals, an...
- Other analytical equipment
- Manufacturing Equipment
Ceramic bowl (mortar) and ceramic pestle (mortar) equipped manufacturing machine, suitable for chemical products and electronic materials! The bowl can be tilted.
- Manufacturing Equipment
- Other analytical equipment
Ceramic bowl (mortar) and ceramic pestle (mortar) manufacturing machine, suitable for chemical products and electronic materials! The bowl can be tilted.
- Manufacturing Equipment
- Other analytical equipment
Please leave the "Ishikawa-style stirring and grinding machine" for "stirring," "crushing," "mixing," and "kneading" to Ishikawa Factory Co., Ltd.
- Other analytical equipment
- Manufacturing Equipment
Dynamic mechanical analysis (DMA) allows for the evaluation of states from low to high temperatures.
- Other analytical equipment
Evaluation of thermal degradation rubber by DMA
This paper introduces the evaluation of thermally degraded rubber using dynamic viscoelastic measurements. A constant temperature bath capable of circulating air within the chamber was used as a suitable device for thermal degradation testing, and NBR rubber and EPDM rubber were heated at 100°C for a specified duration. The changes in viscoelastic behavior due to heating time were investigated. For both types of rubber, as the heating time increased, tanδ (=E"/E') showed a peak that shifted to the higher temperature side, and a decrease in peak value was observed. It is believed that the loss of rubber elasticity and the decrease in elastic modulus resulted in the shift of Tg to the higher temperature side. By measuring dynamic viscoelasticity, it becomes possible to confirm the changes in physical properties associated with material degradation and to gain insights into structural changes. Additionally, conducting other chemical analyses can clarify more specific changes in chemical structure.