Competitive Price for Thermostatic Wax Series for Japan Factory
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Competitive Price for Thermostatic Wax Series for Japan Factory Detail:
The characteristic of Thermostatic Wax consists of its volume expansion amount can reach up to 13 ~ 15 % when it is heated from solid to liquid. We use this characteristic, when it is heated to a solid-liquid transformation, its’ heat energy can translate into mechanical energy. Thermostatic Wax has been widely applied to temperature auto regulation of thermal-driving and various thermal-starting devices.
For example, automobile thermostat has been most widely well known, it has cylindrical seal part that loads some Thermostatic Waxes inside. To realize automatic temperature control, it was designed by a special technical specification for the solid-liquid transformation of Thermostatic Wax. When the cylindrical part is heated, Thermostatic Wax in the part is also heated and making a solid-liquid transformation expansion, Thermostatic Wax pushes thermostat’s itself handspike to open the valve. When the cylindrical part gets cold, Thermostatic Wax also cooled and start to shrink, Thermostatic Wax pushes itself handspike back to original situation under the return load force to close up the valve to realize automatic temperature control.
Depending on the main principle of Thermostatic Wax, The developed thermal driving devices and thermostats have been widely applied to automobile thermostat, automobile temperature-control switch for electric fan, various engines cooling water temperature auto controller, lubricant oil temperature auto control, auto cycle enriching valve, industry electric power control valve, water temperature regulating valve, safety device, space heating, fire protection, air filtering, temperature regulating device, sanitary ware and heating temperature controlling valve, air temperature control, ventilating control, solar water heater, automatic door and window, thermal driving electric switch, alarm apparatus, house ventilating, radiator temperature control valve, hot landing device for aviation and automaton etc.
Within temperature control range of –20 ~ 180 ℃ of Thermostatic Wax may compound with different temperature range and different efficient distance according to client’s technical demand. Our company may offer the relative technical service.
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Model Number |
Appearance (Normal Temperature) |
Quality Standard |
|||
|
Range of Temperature Control |
Effective Distance Travel |
Water-Solubility Acid and Alkali |
Mechanical Impurity |
||
|
B100 |
Powder, Slice , Column |
90/100 |
≥10 |
Non. |
Non. |
|
B105 |
Powder, Slice , Column |
95/105 |
≥10 |
Non. |
Non. |
|
B110 |
Powder, Slice , Column |
100/110 |
≥10 |
Non. |
Non. |
|
B115 |
Powder, Slice , Column |
105/115 |
≥10 |
Non. |
Non. |
|
B120 |
Powder, Slice , Column |
110/120 |
≥10 |
Non. |
Non. |
|
B125 |
Powder, Slice , Column |
115/125 |
≥10 |
Non. |
Non. |
|
B130 |
Powder, Slice , Column |
120/130 |
≥10 |
Non. |
Non. |
|
B135 |
Powder, Slice , Column |
125/135 |
≥10 |
Non. |
Non. |
|
B140 |
Powder, Slice , Column |
130/140 |
≥10 |
Non. |
Non. |
|
B145 |
Powder, Slice , Column |
135/145 |
≥10 |
Non. |
Non. |
|
B150 |
Powder, Slice , Column |
140/150 |
≥10 |
Non. |
Non. |
|
B155 |
Powder, Slice , Column |
145/155 |
≥10 |
Non. |
Non. |
|
B160 |
Powder, Slice , Column |
150/160 |
≥10 |
Non. |
Non. |
|
B165 |
Powder, Slice , Column |
155/165 |
≥10 |
Non. |
Non. |
|
B170 |
Powder, Slice , Column |
160/170 |
≥10 |
Non. |
Non. |
|
B175 |
Powder, Slice , Column |
165/175 |
≥10 |
Non. |
Non. |
|
B180 |
Powder, Slice , Column |
170/180 |
≥10 |
Non. |
Non |
Product detail pictures:
We continue to keep increasing and perfecting our solutions and service. At the same time, we operate actively to do research and enhancement for Competitive Price for Thermostatic Wax Series for Japan Factory, The product will supply to all over the world, such as: Israel , Qatar , Rwanda , Nowadays our products sell all over the domestic and abroad thanks for the regular and new customers support. We provide high quality product and competitive price, welcome the regular and new customers cooperate with us!
Microchannel Plate Detector MCP-MA25/2 sales@dmphotonics.com
Featured Research:
View online: https://jcp.aip.org/resource/1/jcpsa6/v138/i17/p174310_s1?isAuthorized=no&ver=pdfcov
Spectroscopic observation of gold-dicarbide: Photodetachment and velocity map imaging of the AuC2 anion
Photoelectron spectra following photodetachment of the gold dicarbide anion, AuC−
2 , have been recorded using the velocity map imaging technique at several excitation wavelengths. The binding energy spectra show well-defined vibrational structure which, with the aid of computational calculations and Franck-Condon simulations, was assigned to a progression in the Au–C stretching mode, ν3. The experimental data indicate that the features in the spectrum correspond to a 2A←3A transition, involving states which we calculate to have bond angles ∼147◦ but with a low barrier to linearity.
EXPERIMENTAL METHOD
Since the specific apparatus used for these experiments has not been previously published, a detailed description is given here. Experiments were performed under high vacuum conditions within a two chamber, differentially pumped system operated at pressures of 1 × 10^−4 and 1 × 10^−6 mbar, respectively. Gold-carbide clusters were produced within a Smalley-type laser ablation source modelled on our existing designs. The source was operated with benzene seeded in helium gas to produce the metal-carbon products. The clusters exit the source and expand towards a two stage Wiley-
McLaren type time of flight where anion species are pulse extracted orthogonally into a drift region. Ion optics corrects the flight path of the extracted anions so that they enter the VMI electrodes positioned immediately after the drift region. The geometry of the time of flight electrodes was designed such that the second order space focus was coincident with the photodetachment point within the VMI electrodes.25 At this point, the ion packets of the clusters were condensed to small volumes and separated in time according to their mass to charge ratio, m/e. Individual m/e species are probed by varying the photodetachment timing. A removable (via a linear motion feed-through), dual micro-channel plate detector (MCP, Del Mar Ventures, Del Mar Photonics MCP-MA25/2) is located immediately after the VMI electrodes to provide mass spectral identification
of cluster species for photodetachment. The velocity map imaging electrodes were pulsed to highvoltage 200 ns prior to the photodetachment event to ensure
stable potentials. Photodetachment was performed via laser light produced by a dye laser pumped by the second harmonic of a Nd:YAG laser. The incident laser power was varied in order to keep the number of detected electrons at a rate of ∼1 per laser pulse, but was typically on the order of a few microjoules at the point of entry into the chamber. To prevent deflection of the photodetached electrons by stray magnetic fields, the detection chamber was lined with magnetic shielding (Co-Netic 0.36 mm thickness, Magnetic Shield Corp.).
Research interests lay in the fields of laser chemistry and reaction dynamics, and include the following themes:
Reaction Dynamics:
Energy partitioning during photodissociation of van der Waals molecules.
Evaporation dynamics at the liquid-vacuum interface.
Electronic Spectroscopy:
Structure of van der Waals clusters.
2-Dimensional Laser Induced Fluorescence (2D-LIF) spectroscopy.
Rovibronic analysis of large polyatomic molecules.
Nanotechnology:
Nanoparticle formation using laser based methods.
Molecular spectroscopy
Reaction dynamics
https://www.dmphotonics.com/MCP_MCPImageIntensifiers/mcpma252.htm
photodetachment cross section
photodetachment spectroscopy
photodetachment of electrons
double acting and spring assist for pneumatic spring return valve actuators
