These glove boxes are an economical way to perform and maintain a wide range of atmospheres and functions, including use as a dry glove box, inert gas (nitrogen) glove box, isolation glove box, anaerobic chambers, oxygen, and humidity control glove boxes. Used with a variety of accessories and available in polycarbonate or UV resistant plastic, this glove box is easy and affordably customized for your needs.
DETAILED DESCRIPTION
Coy Laboratory Products Polymer Glove Boxes can provide your desired environment for critical operations in such industries as semiconductor and pharmaceutical testing and manufacturing. Hermetically sealed enclosures provide a controlled atmosphere for a wide range of manufacturing and testing operations. Their modular design lets you select the options you need for your operation.
Select from materials to suit your requirements. Use polycarbonate for operations that involve thermal stress or UV-Resistant Acrylic which permits the use of UV light inside the chamber without damage to the integrity of the plastic.
All glove boxes are fabricated to meet rigorous standards for cleanliness and durability. Solvent welding ensures a strong, airtight structure that won't leak. The gaskets on the side doors provide a safe, positive seal without interfering with full access to the internal chamber. The 45-degree front slope allows the operator an uninterrupted view of work in progress.Contact COY about custom viewing slopes for specific requirements.
The patented Diaphragm Top increase the ease with which the operators hands enter and exit the glove box and increase cost savings as less glove box gas is expelled to the lab atmosphere. For applications involving large equipment, request the optional, fully gasketed 32" x 20" (81 cm x 51 cm) removable back wall or oversize door in the side wall. Dual 8" (20 cm) round arm ports come equipped with flanges for easy connection of gloves or gloveless sleeve, which may be ordered as desired. The optional Arm Port Plugs maintain an airtight chamber while gloves are changed.
Xsens Technologies is a leading supplier of products for measurement of motion, orientation and position, based upon miniature MEMS inertial sensor technology.
Xsens’ products are small, low-cost and highly accurate 3D motion measurement units. These specific qualities enable applications such as control, stabilization and navigation of small (unmanned) vehicles, and totally new applications such as inertial full-body human motion capturing (for camera-less character animation, VR training and simulation, sports and health).
Xsens is specialized in state-of-the-art miniature MEMS inertial sensors (accelerometer, gyroscope), aiding technologies (GPS/GNSS, vision, barometer, magnetic field sensors) and proprietary ‘sensor fusion’ software algorithms.
Xsens Technologies is based in Enschede, The Netherlands.project Control Architecture for an Autonomous Underwater Vehicle
The Underwater Robotics Research Lab of the Computer Vision and Robotics team focuses its work on the design and development of the technologies needed to set-up Autonomous Underwater Vehicles (AUVs) with application to marine science, archeology and industrial underwater inspection (Dams, harbours, pipes,...). The Underwater Robotic Intelligent System (URIS) is one of the last prototypes developed by VICOROB. It is equipped with a network of two PC104 computers interfaced with several sensors. Due to the small dimensions of URIS (sphere of 35 [cm] diameter) most of the sensors commonly used for AUVs doesn’t fit onboard. For this reason, URIS sensing subsystem is composed by two small cameras, two sonar altimeters, a depth sensor and a miniature attitude and heading reference unit from Xsens Technologies. The MTi unit is used to determine the attitude of URIS in order to stabilize it. The MTi is fast; it takes only 6 to 7 ms from the physical event until the reception of the orientation at the processor.
A Team of students of the Universitat de Girona competes in the Student Autonomous Underwater Challenge - Europe (SAUC-E), to be held in London
Titanium dioxide pigment (TiO2) is a white powder with high opacity, brilliant whiteness, excellent covering power and resistance to colour change. These properties have made it a valuable pigment and opacifier for a broad range of applications in paints, plastic goods, inks and paper.
The pigment is manufactured by processing naturally occurring the titanium-containing rutile or ilmenite minerals. Rutile is an impure form of titanium dioxide whereas ilmenite contains titanium combined with iron as a compound oxide. Though common throughout the world, they are most readily exploited in Australia, USA, India and South Africa.
In Australia nearly all titanium dioxide is produced from ilmenite as it naturally occurs in accessible high concentrations and in a form which allows the ready extraction of the rutile. These favourable factors have made ilmenite a competitive raw material for Australia's producers reflected in high export activity.
Low energy cost regions use the slagging process.
Australia supplies about 40 per cent of the world's ilmenite and about 25 per cent of its rutile. In contrast to its dominance in titanium minerals, Australia supplies only about a 3 per cent share of the world's titanium dioxide pigment production of around 4 million tonnes. This imbalance implies significant opportunity for adding further value.
In 1995, Western Australia produced 160 000 tonnes of titanium dioxide pigment valued at around $350 million.
By June 1998, Australia is anticipated to export A$1.1 bn of titanium minerals of which two-thirds is exported to Europe and North America.
Cargille Laboratories develops and manufactures technical products for a variety of laboratories. Some are simple but necessary answers to common laboratory needs, while others are highly technical, meeting the exacting demands of laboratories worldwide for high accuracy, reliability, and precision quality control.
Cargille Laboratories is one of the worlds largest manufacturers of Optical Liquids, ranging from our Microscope Immersion Oils and Refractive Index Matching Liquids to our custom blended Index Matching Immersion and Laser Liquids. There are hundreds of possible applications for our liquids.
Besides our Index Matching Liquids, Cargille Laboratories carries density standards, viscosity tubes, sample storage containers, reference materials, mounting media, optical gels, and other scientific and laboratory specialties
Jennic has announced a single-chip 32-bit wireless microcontroller for networking communications based on the Zigbee Pro and IEEE802.15.4 standards.
The JN5148 32-bit wireless microcontroller achieves a system operating current consumption of 18mA when receiving, and 15mA when transmitting at +3dBm.
With 128KB ROM, 128KB RAM and enhanced coding efficiency, the JN5148 has sufficient space for developers to integrate embedded application software and the Zigbee Pro protocol stack into a single chip.
It can also be used as a co-processor, enabling Zigbee Pro to be quickly added to existing systems.
Programmable CPU clock speeds from 4MHz to 32MHz and the use of five separate power domains provide the ability to select low power or high performance up to 32 MIPS CPU operation for the JN5148 to be used across the full range of applications from low-power battery-backed networks to high I/O, processor-intensive systems.
A Time of Flight ranging engine integrated into the device is useful for location-based services for sensor networks.
The engine provides improved accuracy over conventional signal-strength-based systems with little incremental cost, said Jennic.
Reverse Osmosis (RO) su arıtma teknolojisi, diğer su arıtma yöntemleri içinde oldukça yeni bir yere sahip olmakla beraber, doğada, bitkiler, insan ve hayvan hücrelerine su temininin Osmos yöntemi ile meydana geldiği uzun yıllardan beri bilinmektedir.
RO, son yıllarda, suyun içerisinde bulunan istenmeyen minerallerin, özellikle tuzlu su arıtımında daha eski yöntemler olan distilasyon ve deiyonizasyona alternatif olarak çıkan oldukça yeni bir su arıtma teknolojisidir.RO, benzeri teknolojilerle karşılaştırıldığında nisbeten basittir ve bir membran teknolojisidir.
Normal Ozmoz, doğada, aralarında yarı geçirgen, sadece suyun geçmesine müsaade eden diğer maddeleri yüksek oranda tutan bir membran bulunan farklı konsantrasyondaki iki sıvının bulunduğu ortamlarda birinin diğerine su geçimiyle meydana gelir ve bu işlem iki tarafta denge sağlanana kadar devam eder.
Ozmotik Basınç, membranın iki tarafında bulunan sıvılarda hacim değişikliği olduğunda meydana gelen statik yükseklik farkı ile oluşur. Aşağıdaki şekil 1'de görülen "p" osmotik basınçtır.
Ters Ozmoz'da, konsantrasyonu fazla olan sıvı tarafında bir basınç (ozmotik basınçtan daha büyük) uygulanarak, sağlanacak ters akışla, yoğunluğu fazla olan sıvı içerisinde bulunan mineraller, tuzlar ve organik maddeler, membran'ın bir tarafında bırakılarak diğer tarafa, yoğunluğu daha az, tuzlar ve minerallerden arındırılmış bir sıvı olarak geçirilir.
Pratikte, basılan suyun, sadece belli bir yüzdesinin bu membrandan geçmesine müsaade edilir. İçinde mineraller, tuzlar ve organik maddelerin birlikte yoğunluğu çok daha fazla olan konsantrasyon ise gidere verilir.
"Konsantrasyon Polarizasyonu" olarak bilinen polarize olmuş moleküllerin kısa bir zaman aralığında membran üzerinde birikerek daha fazla akışa geçiş vermemesi gibi sorunların önüne geçilmesi için membranların periyodik olarak basınç altında özel kimyasal maddelerle yıkanabilecek bir düzene sahip olması gerekir.
Ters osmoz sistemleri en bilinen ileri arıtma teknolojilerinin başında gelmektedir. Bu sistemler özel proses sularının hazırlanması, içme suyu eldesinde, besi suyu temininde sıkça kullanılmaktadır. Bunların yanısıra saf su ihtiyacı olan firmalarda deiyonizasyon sistemleriyle birlikte, vazgeçilmez arıtma üniteleri olarakta bilinir.
Sparklike’s Gasglass technology for gas measure is still the first truly non-invasive way of measuring the Argon or Krypton fill level of insulated glazing (IG) units.Sparklike is proud to release a new product to its Gasglass product line, Gasglass Handheld v2!
Gasglass-Handheld is a gas fill analyzer for IG units in windows and doors
The Gasglass Handheld’s new version allows a freedom of movement and enables total quality control for windows and doors. Gasglass is able to measure both argon and krypton fill levels in user friendly way.
Recommeded retail price for Gasglass Handheld v2 is 7500€ including argon calibration. Shipment and handling costs will be added to the price.
Gasglass Handheld v2 is used by:
insulating glass manufacturers
IG line manufacturers
window manufacturers
building inspectors
building contractors
test laboratories
Calibrations
To maintain its accuracy and to have as reliable measurement results as possible, Gasglass gas analysers are recommended to be calibrated annually. Gasglass machinery can be calibrated for both argon and krypton gases.
The previous version of Gasglass Handheld can also be upgraded into Gasglass Handheld v2. See Gasglass Handheld Upgrade Kit v2 for further information!
Calibration can be performed for both argon and krypton gases. Price for argon calibration is 415€ and for krypton calibration 985€, shipment and handling costs will be added to the prices. Due to the nature of the process, calibrations are carried out by Sparklike Ltd at its headquarters in Helsinki, Finland.
Please note that if you are sending your device from outside EU, additional customs costs will be added to your invoice. Please contact<_script /><_script /> aftersales@sparklike.com.<_script /><_script /> This e-mail address is being protected from spam bots, you need JavaScript enabled to view it<_script /><_script /> This e-mail address is being protected from spam bots, you need JavaScript enabled to view it if further information is required. Please do not use wooden packaging boxes for shipping. If you do, please let us know if you need to have the box returned. Additional shipping cost for heavy packaging will be added to invoice.
Sular yükselince balıklar karıncaları, çekilince karıncalar balıkları yer. Kimse bu gününe güvenmesin. Kimin kimi yiyeceğine suyun akışı karar verir...
