7/19/2016

Giving back to Milwaukee – Rebuilding Together Block Build 2016


Rebuilding-Together-2016-Top-Image
Associates of J.W. Speaker were happy to come LED Headlights together again this year to volunteer their time and talent for the Rebuilding Together of Greater Milwaukee’s Block Build 2016 – May 21, 2016.
This year, the Rebuilding Together of Greater Milwaukee organization revamped their Rebuilding Day event into a Block Build, organizing sponsorships, funding and volunteers to help improve over 30 homes on a single block on one day, Saturday, May 21st, 2016.
Over 25 volunteers from J.W. Speaker donated their time again this year, helping a local family update exterior landscaping, apply new exterior paint, install new windows, new flooring, carpeting and a new porch railing.
Here at J.W. Speaker, we are happy to have helped make such a big impact for our Milwaukee neighbors and give thanks to all of our devoted employees who came out to help make it such a big success!


(Photo: First photo of the day, before the real work began.)(Photo: Painting the front porch.)(Photo: Painting the front porch.)
(Photo: New railing.)
(Photo: Building the New railing.)
(Photo: Landscaping.)
(Photo: Installing new windows.)
(Photo: Landscaping the front yard.)
(Photo: Cleaning up the back yard.)
(Photo: Finished house.)
J.W. Speaker was happy to participate this year and give back to the local community we call home!  From: http://www.leiyao.net/news/giving-back-to-milwaukee-rebuilding-together-block-build-2016

Giving back to Milwaukee – Rebuilding Together Block Build 2016


Rebuilding-Together-2016-Top-Image
Associates of J.W. Speaker were happy to come LED Headlights together again this year to volunteer their time and talent for the Rebuilding Together of Greater Milwaukee’s Block Build 2016 – May 21, 2016.
This year, the Rebuilding Together of Greater Milwaukee organization revamped their Rebuilding Day event into a Block Build, organizing sponsorships, funding and volunteers to help improve over 30 homes on a single block on one day, Saturday, May 21st, 2016.
Over 25 volunteers from J.W. Speaker donated their time again this year, helping a local family update exterior landscaping, apply new exterior paint, install new windows, new flooring, carpeting and a new porch railing.
Here at J.W. Speaker, we are happy to have helped make such a big impact for our Milwaukee neighbors and give thanks to all of our devoted employees who came out to help make it such a big success!


(Photo: First photo of the day, before the real work began.)(Photo: Painting the front porch.)(Photo: Painting the front porch.)
(Photo: New railing.)
(Photo: Building the New railing.)
(Photo: Landscaping.)
(Photo: Installing new windows.)
(Photo: Landscaping the front yard.)
(Photo: Cleaning up the back yard.)
(Photo: Finished house.)
J.W. Speaker was happy to participate this year and give back to the local community we call home!  From: http://www.leiyao.net/news/giving-back-to-milwaukee-rebuilding-together-block-build-2016

Spring into New LED Lighting

5

5.75″ Round LED Motorcycle Headlights –
Model 8690 M Series

Model 8690 M Series is the first to utilize our state-of-the-art ComfortLite™ high beam as well as low beam, providing added illumination above the horizon with a powerful punch of light down the road!  The proprietary solid optics offer enhanced visibility to both riders and other drivers, for a new level of rider comfort.
  • Perfect balance between form & function
  • Heavy-duty, die-cast aluminum housing and state-of-the-art LEDs provide rugged durability
  • Sleek design that not only delivers premium performance, but also gives a bike a truly unique look!

Spring into New LED Lighting



Check out the full selection of Motorcycle Headlights.


6

3.5″ Round LED Work Light – Model 4415 Mirror Kit

This new kit uses our existing Model 4415 LED spotlight with a new pre-assembled shroud. Kit is intended to be mounted on the side mirrors or forward of the driver with the shroud (snoot) oriented to block the light from the driver / operator’s eyes, providing maximum visibility rearward.
  • Kit includes two lights, with a shroud mounted in right-hand and left-hand orientations.
  • Can also be mounted elsewhere on the truck, such as on the back or side of a sleeper cab, to provide additional lighting.
From: http://www.leiyao.net/news/spring-into-new-led-lighting-2

Spectrophotometric Estimation of Gold at 565nm

ESTIMATION OF GOLD
Using Rhodamine B
In the form of AuCl4-, Au(III) Analytical Instruments gives rise to a violet complex  with the cation of rhodamine can be extracted with  benzene and iso- propyl ether . The extracted is governed by the concentration of hydrochloric acid and other chlorides.
Interfering ions:
Sb(V), Tl(III), W (VI), Hg(II) (> 250), Fe(III) (>100 µg),  and  Sn (IV) (10µg) also  give the extractable  coloration. When these metals are present , the gold may be separated by precipitation with hydroxylamine hydrochloride , using  tellurium as an entraining agent .
Reagents:
  1. Hydrochloride acid, 6M 250ml of water are added to 250ml of concentrated hydrochloric acid.
  2. Ammonium chloride , saturated: 150g of ammonium chloride are dissolved in 500ml of water .
  3. Rhodamine B, 0.04% : 200mg of rhodamine B are dissolved in 500ml of water.
  4. Iso propyl ether.
Operating procedure:
2.5ml of 6M hydrochloric acid and 5.0ml of ammonium chloride are added to 5ml of solution containing 10 to 20µg of gold: the volume is made up to 15ml.  5ml of rhodamine B are added, followed by 10ml (accurately measured) of iso propyl ether. The mixture is vigorously shaken 100times, allowed to settle and the colorimetric determination is then performed at 565nm. via

List of Analytical Instrument and Their Uses

Analytical instruments are used to analyze materials and after analyzing the product or material, it can establish the composition. There are various types of these machines which are used to determine the material and its purieties and impurities. All types are sdescribed below.
Analytical Equipment are of different types:
  • Elemental Analysis
  • Surface Analysis
  • Form Observation
  • Compound Structure Analysis
  • Thermal Analysis/Thermal Properties
  • Chromatography and Separation Analysis
Elemental Analysis:
Elemental examines the product and its materials and then justify the purity, components and impurities of materials. In manufacturing, the compositions of exhaust gases and wastewater this instrument also examines the generated compositions.
Types:
  • Organic Elemental Analyzer
  • Flame and Flameless Atomic Analytical Instruments Absorption Spectrometer
  • Emission Spectrophotometer
  • Inductively Coupled Plasma Emission Spectrometer
  • X-ray Fluorescence Analyzer
  • Inductively Coupled Plasma Mass Spectrometer
  • Ion Chromatograph
  • Molecular Absorption Spectrophotometer
  • Particle Analyzer
  • Total Nitrogen Analyzer
  • Nitrogen and Carbon Analyzer
Surface Analysis Types:
  • X-ray Photoelectron Spectrometer
  • Auger Electron Spectrometer
  • Secondary Ion Mass Spectrometer
  • Time-of-flight secondary ion mass spectrometer
  • Electron Probe X-ray Microanalyzer
  • Field Emission Scanning Electron Microscope
  • Low Level Alpha particle measuring instrument
  • Thermal Desorption Mass Spectrometer
Form Observation:
It analyzes surface and interface conditions of electronic materials, metals, ceramics, catalysts and other substances.
Types:
  • Transmission Electron Microscope
  • Scanning Electron Microscope
  • Atomic Force Microscope
  • Optical Microscope
  • Field Emission Scanning Microscope
Compound Structure Analysis:
This device analyzes the structures of new chemical substances, product's materials and their impurities or reactions.
Types:
  • Organic Mass Spectrometer
  • Time-of-Flight Mass Spectrometer
  • Nuclear Magnetic Resonance Analyzer
  • Visible/Ultraviolet Spectrochemical Analyzer
  • Fourier Transform Infrared Spectrometer
  • Raman Spectrometer
  • X-ray Diffraction Analyzer
  • Electron Spin Resonance Analyzer
  • Fourier Transform Infrared Microspectrometer
  • Scanning Infrared Microprobe Analyzer
Thermal Analysis/Thermal Properties:
These instruments determine thermal properties of objects with thermal change.
Types:
  • Thermogravimetric Analyzer
  • Differential Thermal Analyzer
  • Differential Scanning Calorimeter
  • Specific Heat Measuring
  • Reaction Heat Measuring
  • Vaporization Heat Measuring
  • Thermal Expansion Coefficient
  • Thermal Conductivity Measuring

Chromatography and Separation Analysis:
It gives oriented and accurate results of quantitative analysis and composition analysis of objects. This analysis is used to diversify and sanitize compounds.
Types:
  • Gas Chromatography
  • Gas Chromatography-Mass Spectrometer
  • Gas Chromatography-Fourier Transform Infrared Spectrometer
  • Gas Chromatography-Atomic Emission Detector
  • Liquid Chromatograph
  • Liquid Chromatography-Mass Spectrometer
  • Liquid Chromatography-Tandem Mass Spectrometer
  • Gel Permeation Chromatograph
  • Thin Layer Chromatograph
  • Pyrolysis Gas Chromatograph
  • Gas Chromatography-Tandem Mass Spectrometer
  • Instruments for Liquid Chromatography-Mass Spectrometer
  • Gel Permeation Chromatograph - Scattering Method
  • Capillary Electrophoresis

Atico Export is vital Spectrophotometer, http://www.globe-instruments.com/ in international market. You can call us anytime, we are pleased to serve you.

Visulization of Sss Materials

Visualization of SSS Materials.
SSS Materials: [Triple S Materials]
Materials possessing grain size on the order of a billionth of a meter. Since nano materials posses unique, beneficial, chemical physical and mechanical properties they can be used for wider variety of applications. We can see the presence of nano materials everywhere and how it is superior to other materials which are being used now days and earlier. Nano materials can be called as SSS materials as they are SMALL, STRONG and SMART.
Amazing Resistance power:
Tungsten Carbide , Tantalum Carbide and Titanium carbide are much harder , much more wear resistant, erosion resistant and last longer than their conventional counter parts. Miniaturization of micro electronic circuits ,the industry needs microdrills( drill bits with diameter less than the thickness of average human hair or 100µm) with enhanced edge retention & far better wear resistance. Since nano crystalline carbides are much stronger, harder , and wear resistant they are currently being used in these microdrills.
High Energy Density batteries:
The life of conventional and rechargeable batteries is low. Nano crystalline materials synthesized by Sol-gel techniques are the ones for separator plates in batteries because of their foam-like (aerogel) structure, which can hold considerably more energy than conventional ones. Nano crystalline nickel and metal hydrides are envisioned to require far less frequent recharging and to last much longer because of their large grain boundary (surface) area and enhanced physical , chemical , and mechanical properties.
Pollution Eraser:
Due to their enhanced chemical activity, nano materials can be used as catalysts to react with such noxious and toxic gases as carbon monoxide and nitrogen oxide in automobile catalytic converters and power generation equipment to prevent environmental pollution arising from burning gasoline and coal.
Mega Power Magnets:
The strength of a magnet is measured in terms of coercivity and saturation magnetization values. These values increase with a decrease in the grain size and an increase in the specific surface area of the grains. The magnets made of nano crystalline yittrium-Samarium-cobalt grains posses very unusual magnetic properties due to their extremely large surface area. Other applications:
Automobile alternators, land-based power generators, motors for ships, ultra-sensitive analytical instruments and magnetic resonance imaging (MRI) in medical diagnostics.
High Sensitivity Sensors:
Sensors employ their sensitivity to the changes in various parameters they are designed to measure. The measured parameters include electrical resistivity chemical activity, magnetic permeability, thermal conductivity and capacitance. All these depend greatly on the microstructure of the materials employed in the sensors. The sensors made nano crystalline materials are extremely sensitive to the change in their environment. Applications for sensors made out of nano crystalline materials are smoke detectors, ice detectors on air craft wings, automobile engine performance sensor etc.
Enhancing Efficiency of Automobiles:
Currently automobile engines waste considerable amounts of gasoline thereby contribute to environmental pollution by not completely combusting the gas. A conventional spark plug is not designed to burn the gasoline completely and efficiently. Since nano materials are stronger, harder and much more wear –resistant and corrosion resistant they are presently being envisioned to be used as spark plugs.
These electrodes render the spark plugs longer-lasting and combust fuel far more efficiently and completely. Automobiles waste significant amounts of energy by losing the thermal energy generated by the engine. This is especially true in the case of diesel engines. Hence the engine cylinders (liners) are currently being envisioned to be coated with nano crystalline ceramics, such as Zirconia and alumina so that they retain heat much more efficiently and result in complete and efficient combustion of the fuel.
Improvising the performance of Aerospace Components:
Due to the risks involved in flying aircraft manufacturers strive to make the aerospace components stronger, tougher and last longer. One of the key properties required of the aircraft components is the fatigue strength which decreases with the component's age. By making the components out of stronger materials the life of aircraft is greatly increased. SSS materials i.e nano materials provide such a significant reduction in the grain size over conventional materials that the fatigue life is increased by an average of 200-300%. Further more components made of nano materials are stronger and can operate at higher temperatures, aircrafts can fly faster and more efficiently. So nano materials are the best substitute for spacecraft applications.
Other side of ceramic materials:
Ceramics are very hard, brittle, and hard to machine. These characteristics of ceramics have discouraged the potential users from exploiting their beneficial properties. However these ceramics must posses nano crystalline grains to be superplastic. i.e it can be deformed to great great lengths (up to 300% of its original length).Nano crystalline ceramics, such as silicon nitride, and silicon carbide have been used in such automotive applications as high strength springs , ball bearings and valve lifters because they posses good formability and mach inability combined with excellent physical, chemical and mechanical properties. They can also be used as components in high-temperature furnaces.
Computer chips of future generation:
The micro electronics industry has been emphasizing miniaturization, where by the circuits, such as transistors, resistors, and capacitors are reduced in size .Though microprocessors run faster there are several technical impediments to these advancements including lack of the ultra fine precursors to manufacture these components, dissipation of heat energy due to faster speed short mean time failures etc. Nano materials break these barriers down by providing the manufacturers with Nano crystalline starting materials ultra high purity materials, materials with better thermal conductivity, longer lasting durable inter connections.(connections between various components in microprocessors).
Large Electronic Display Devices:
An electronic device consists of material which an optical absorption band can be introduced or an existing band can be altered by the passage of current through the materials, or by the application of an field. Nano crystalline materials such as tungsten oxide gel are used in very large electro chromic display devices. The resolution, brightness and contrast of these devices greatly depend on the tungstic acid gel's grain size .Hence nano materials are being explored for this purpose.
HDTVS:
The resolution of the television or a monitor depends greatly on the size of the pixel. These pixels are essentially made of materials called "phosphors" which glow when struck by a stream of electrons inside the cathode ray tube (CRT).The resolution improves with the reduction in the of the pixel or the phosphors. Nano crystalline Zinc selenide, Zinc sulfide, cadmium sulfide and lead telluride synthesized by the sol-gel technique are improving the resolution of the monitors. The use of nano phosphors is envisioned to reduce the cost of displays so as to render high definition televisions and personal computers
FLAT-PANEL DISPLAYS:
Flat-panel displays represent a huge market in the lap-top computers industry. The flat-panel displays constructed out of nano materials possess much higher brightness and contrast than the conventional ones owing to their enhanced electrical and magnetic properties.
Longer Lasting Satellites:
Satellites are being used for both defense and civilian purposes. These satellites utilize thruster rockets to remain in or change their orbits due to a variety of factors including the influence of gravitational forces exerted by the earth .Hence these satellites to a large extent is determined by the amount of fuel they can carry on board . In fact more than 1/3 of the fuel carried aboard by the satellites is wasted by these repositioning thrusters due to incomplete and inefficient combustion of the fuel such as hydrazine. The reason for the incomplete and inefficient combustion is that the on board ignitors wear out quickly and cease to perform effectively. Nano materials such as nano crystalline Analytical Instruments composite are potential candidates for enhancing these ignitors life performance characteristics.
Conclusion:
We have seen only the few applications of nano materials. Many new applications being discovered almost everyday . There are many other applications and uses which have yet to be covered. From the applications we can see that such a small material does wonder in all the fields of science. Their strength and physical chemical and mechanical properties show that their presence in varsity of applications. Really the materials are smart and even specific too. As we study their characteristics deeply we can enjoy the performance of these peculiar materials. our site

7/06/2016

The Many Wonders of Body Hair Removal

From simple shaving to laser hair removal in NYC, you can achieve the smooth look you desire.
Why Remove Hair at All?
For some people, hair removal is about smooth, hair-free skin that is soft and beautiful. For other people who don't prefer the bare look, hair removal is about keeping things neat and trim. Overall, getting rid of body hair is more sanitary and makes it easier to keep things clean, and the rest is just personal preference.
What Are My Options?
When it comes to hair removal, some of the common options include shaving, tweezing/plucking, threading, using epilators and other devices, trying creams that dissolve the hair, and, of course, laser hair removal. Each comes with a set of pros and cons.
Shaving
Shaving has been around for a long time, and it is a tried and true method that leaves body areas smooth, trim, and hair-free. It is relatively inexpensive, since all you need is a razor and either shaving cream or some form of soap, but you will need to continue to purchase these products on a regular basis. The results of shaving are short-lived, since the hair is cut off right at the surface of the skin and will start to grow back immediately.
Waxing, Tweezing, Threading, and Epilators
Waxing, plucking, threading, and epilators are all boryhair different forms of ripping the hair out by the roots. Waxing involves strips of wax that are ripped off in one long sweep, tweezing plucks hairs out individually, threading removes hair in short lines, and epilators remove many hairs at once. For smaller areas like eyebrows or upper lips, many people prefer threading or plucking. Waxing is a good way to tackle larger areas, since it removes so many hairs at once. Epilators can be more time-consuming, but they don't remove the top layer of skin (a common complaint about waxing). The results of pulling the hair out by the root are much more long-lasting, since the hairs take much more time to grow back.
Creams
Depilatory creams weaken the bonds in hairs so they are easily scraped off the surface of the skin. As long as you are not sensitive to the chemicals, it can be a pain-free way of removing unwanted body hair. Be careful not to leave the creams on for too long, or burns may occur.
Laser Hair Removal www.boryhair.com