Sunday, October 23, 2011

Tips For Preventing Back Injuries in Winter

!±8± Tips For Preventing Back Injuries in Winter

When winter has arrived across the country, injuries rise. When snow, sleet, ice and cold are in the forecast, you should take extra care to protect your back. Consider these tips for preventing winter back injuries:

Keep warm. Mom was right - dress in layers. Layered clothing helps body heat stay in, keeping muscles and joints more flexible and less stiff.

Dress for the weather. It's too late once you get cold and/or wet. Stay tuned to local forecasts so you know what to expect if you are going away from home.

Warm up before doing any cold weather exercise, including skating, skiing, sledding, hiking or even shoveling snow. Joints and muscles are especially vulnerable to injury in the cold.

In fact, warming up before winter sports and outdoor activities is so important that Olympic speed skater Derek Parra recommends that if you're short on time, it is better to shorten your workout so you can warm up longer.

"You can complete a good warm up in 15 - 20 minutes, and believe me, it will make your workout more pleasant and safe," says the Parra, a World Cup gold medal winner and Olympic hopeful. He suggests 10 minutes of light aerobic activity, such as jogging or biking, followed by stretches.

Finally, remember to use good technique and form when shoveling show or scraping ice. Do not twist or jerk. Bend at the knees and let your leg muscles bear the weight. Turn your body as required, instead of twisting into an awkward position.


Tips For Preventing Back Injuries in Winter

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Tuesday, October 18, 2011

Pcm In Textiles

!±8± Pcm In Textiles

Phase Change Materials (PCM) in Textiles
In textile industry, protection from extreme environmental conditions is a very crucial requirement. Clothing that protects us from water, extreme cold, intensive heat, open fire, high voltage, propelled bullets, toxic chemicals, nuclear radiations, biological toxins, etc are some of the illustrations.

Such clothing is utilized as sportswear, defense wear, firefighting wear, bulletproof jackets and other professional wear. Textile products can be made more comfortable when the properties of the textile materials can adjust with all types of environments.

At present, for fulfilling the above requirement Phase Change Materials (PCM) is one such intelligent material. It absorbs, stores or discharges heat in accordance with the various changes in temperature and is more often applied to manufacture the smart textiles.

Phase Change Materials
'Phase Change' is the process of going from one stat to another, e.g. from solid to liquid. Any material that experiences the process of phase change is named as Phase Change Materials (PCM).

Such materials collect, discharge or absorb heat as they oscillate between solid and liquid form. They discharge heat as they transform to a solid state and absorb as they go back to a liquid state. There are three basic phases of matter solid, liquid and gas, but others like crystalline, colloid, glassy, amorphous and plasma phases are also considered to exist.

This fundamental phenomenon of science was initially developed and used for building space suits for astronauts for the US Space Program. These suits kept the astronauts warm in the black void of space and cool in the solar glare. Phase Change Materials are compounds, which melt and solidify at specific temperatures and correspondingly are able to retain or discharge large amounts of energy.

The storage of thermal energy by changing the phase of a material at a constant temperature is classified as 'latent heat', i.e., changing from a liquid state to a solid state. When a PCM experiences a phase change, a huge amount of energy is needed. The most significant characteristic of latent heat is that it involves the transfer of much larger amounts of energy than sensible heat transfer.

Quiet a few of these PCMs change phases within a temperature range just above and below human skin temperature. This characteristic of some substances is used for making protective all-season outfits, and for abruptly changing environment. Fibre, fabric and foam with built-in PCMs store the warmth of body and then release it back to the body, as the body requires it. Since the procedure of phase change is dynamic, the materials are continually shifting from solid to liquid and back according to the physical movement of the body and outside temperature. Furthermore, Phase Change Materials are used, but they never get used up.

Phase Change Materials are waxes that have the distinctive capacity to soak and emit heat energy without altering the temperature. These waxes include eicosane, octadecane, Nonadecane, heptadecane and hexadecane. They all possess different freezing and melting points and when mixed in a microcapsule it will accumulate heat energy and release heat energy and maintain their temperature range of 30-34°C, which is very comfortable for the body.

The amount of heat absorbed by a PCM in the actual phase change with the amount of heat absorbed in an ordinary heating procedure can be evaluated by taking water as a PCM. The melting of ice into water leads to the absorption of latent heat of nearly 335 J/g. If water is further boiled, a sensible heat of only 4 J/g is absorbed, while the temperature increases by one degree. Hence, the latent heat absorption in the phase change from ice into water is about 100 times greater than the sensible heat absorption.

How to assimilate PCMs in fabrics?
The micro encapsulated PCM can be combined with woven, non woven or knitted fabrics.

The capsules can be added to the fabric in various ways such as:

Microcapsules: Microcapsules of various shapes - round, square and triangular within fibres at the polymer stage. The PCM microcapsules are permanently fixed within the fibre structure during the wet spinning procedure of fibre manufacture. Micro encapsulation gives a softer hand, greater stretch, more breathability and air permeability to the fabrics.

Matrix coating during the finishing process: The PCM microcapsules are embedded in a coating compound like acrylic, polyurethane, etc, and are applied to the fabric. There are many coating methods available like knife-over-roll, knife-over-air, pad-dry-cure, gravure, dip coating and transfer coating.

Foam dispersion: Microcapsules are mixed into a water-blown polyurethane foam mix and these foams are applied to a fabric in a lamination procedure, where the water is removed from the system by the drying process.

Body and clothing systems
The needed thermal insulation of clothing systems mainly depends on the physical activity and on the surrounding conditions such as temperature and relative humidity. The amount of heat produced by humans depends a lot on the physical activity and can differ from 100W while resting to over 1000W during maximum physical performance.

Specially, during the cooler seasons (approx 0°C), the suggested thermal insulation is defined in order to make sure that the body is adequately warm when resting. At extreme activity, which is often a case with winter sports, the body temperature rises with enhanced heat production. To make this increase within a certain limit, the body perspires in order to withdraw energy from the body by evaporative cooling. If the thermal insulation of the clothing is decreased during physical activity, a part of the generated heat can be removed by convection, thus the body is not needed expected to perspire so much.

The quality of insulation in a garment in terms of heat and cold will be widely managed by the thickness and density of its component fabrics. High thickness and low density make insulation better. It is observed in many cases that thermal insulation is offered by air gaps between the garment layers.

However, the external temperature also influences the effectiveness of the insulation. The more extreme the temperature, be it very high or very low, the less effective the insulation becomes. Thus, a garment designed for its capability to protect against heat or cold is chosen by its wearer on the expectation of the climate in which the garment is to be worn.

Though, a garment produced from a thick fabric will have more weight, and the freedom of movement of the wearer will be restricted. Clearly then a garment designed from an intelligent fabric, whose nature can change according the external temperature, can offer superior protection. However, such a garment must be comfortable for the wearer.

Temperature change effect of PCMs
PCM microcapsules can create small, transitory heating and cooling effects in garment layers when the temperature of the layers reaches the PCM transition temperature. The effect of phase change materials on the thermal comfort of protective clothing systems is likely to be highest when the wearer is frequently going through temperature transients (ie, going back and forth between a warm and cold environment) or from time to time touching or handling cold objects. The temperature of the PCM garment layers must vary frequently for the buffering effect to continue.

The most obvious example is changing of water into ice at 0° and to steam at 100°. There are many products that change phase near body temperature and are now being integrated in fibres and laminates, or coating substrates, that will alter phase at or near body temperature and so support the equilibrium of the body temperature and keep it more constant. It is for athletes in extreme conditions and people who are involved in extreme sports such as mountaineering and trekking. It is going to be used in industrial applications where people are very mobile, for example, in and out of cool rooms.

Effects on fabrics

When the condensed PCM is heated to the melting point, it absorbs heat energy as it moves from a solid state to a liquid state. This phase change produces a short-term cooling effect in the clothing layers. The heat energy may come from the body or from a warm environment. Once the PCM has totally melted the storage of heat stops

If the PCM garment is worn in a cold environment where the temperature is below the PCM's freezing point and the fabric temperature drops below the transition temperature, the micro encapsulated liquid PCM will come back to a solid state, generating heat energy and a momentary warming effect. The developers assert that this heat exchange makes a buffering effect in clothing, minimize changes in skin temperature and continue the thermal comfort of the wearer.

The clothing layer(s) consisting PCMs must go through the transition temperature range before the PCMs change phase and either produce or absorb heat. Therefore, the wearer has to make some effort for the temperature of the PCM fabric to change. PCMs are transient phenomena. They have no effect in steady state thermal environment.

Active microclimate cooling systems need batteries, pumps, circulating fluids and latest control devices to give satisfactory body cooling, but their performance can be adjusted and made to continue for long period of time. They are, however, costly and complicated. Present passive microclimate devices use latent phase change; either by liquid to gas evaporation of water (Hydroweave), a solid to liquid phase shift by a cornstarch/water gel, or with a paraffin that is contained in plastic bladders.

The liquid evaporation garment is cheaper, but will only give minimum or short-term cooling in the high humid environment found in protective clothing. They must also be re-wetted to revitalize the garments for re-application. The water/ starch gel-type cooling garment is presently preferred by the military, and can offer both satisfactory and long time cooling near 32°F (0 degree Celsius), but it can also feel very cold to the skin and needs a very cold freezer (5°F) to completely recharge or rejuvenate the garment. When completely charged, its gel-PCMs are somewhat rigid blocks, and the garment has limited breathability.

The other paraffin PCM garments are comparatively cheaper, but their plastic bladders can split, thus dripping their contents or leading to a serious fire hazard. In addition, their paraffin PCM melts about 65°F (18°C) and must be recharged at temperatures below 50°F (10°C) in a refrigerator or ice-chest. Their rate of cooling also reduces with time because paraffin blocks are thermal insulators and control the heat that can be transmitted into or out of them. The plastic bladders used to contain the PCM also strictly limit airflow and breathability of the garment, thus reducing their comfort.

Uses of PCM

Automotive textiles

The scientific theory of temperature control by PCMs has been deployed in various ways for the manufacturing of textiles. In summer, the temperature inside the passenger compartment of an automobile can increase significantly when the car is parked outside. In order to regulate the interior temperature while driving the car, many cars are equipped with air conditioning systems; though, providing adequate cooling capacity needs a lot of energy. Hence the application of Phase Change Material technology in various uses for the automotive interior could offer energy savings, as well as raising the thermal comfort of the car interior.

Apparel active wears

Active wear is expected to provide a thermal equilibrium between the heat produced by the body while performing a sport and the heat released into the environment. Normal active wear garments do not satisfy these needs always. The heat produced by the body in laborious activity is often not discharged into the environment in the required amount, thus resulting in thermal stress situation. On the other hand, in the periods of rest between activities, less heat is produced by the human body. Considering the same heat release, hypothermia is likely to occur. Application of PCM in clothing supports in regulating the thermal shocks, and thus, thermal stress to the wearer, and supports in increasing his/ her efficiency of work under high stress.

Lifestyle apparel - elegant fleece vests, men's and women's hats, gloves and rainwear.

Outdoor sports - apparel jackets and jacket linings, boots, golf shoes, running shoes, socks and ski and snowboard gloves.

From genuine uses in space suits and gloves, phase change materials are also used in consumer products.

Aerospace textiles

Phase Change Materials used in current consumer products primarily were made for application in space suits and gloves to protect astronauts from higher temperature fluctuations while performing extra-vehicular activities in space.

The usefulness of the insulation stems from micro encapsulated Phase Change Materials (micro-PCMs) primarily created to make warm the gloved hands of space-strolling astronauts. The materials were accepted ideal as a glove liner, to support during temperature extremes of the space environment.

Medical textiles

Textiles having Phase Change Materials (PCMs) could soon find uses in the medical sector. To raise the thermo-physical comfort of surgical clothing such as gowns, caps and gloves. In bedding products like mattress covers, sheers and blankets. A product, which helps the effort to stay the patient warm enough in an operation by giving insulation tailored to the body's temperature.

Other uses of PCM

Phase Change Materials are at the moment being used in textiles, which include the extremities: gloves, boots, hats, etc. Various PCMs can be selected for various uses. For example the temperature of the skin near the torso is about 33°C (91°F). Though, the skin temperature of the feet is nearly 30 -31 °c. These PCM materials can be useful down to 16°C, enough to ensure the comfort of someone wearing a ski boot in the snow. They are increasingly applied in body-core protection and it will shift into the areas of blankets, sleeping bags, mattresses and mattress pads.

PCM Types

Standard phase change materials are generally a polymer/carrier filled with thermally conductive filler, which changes from a solid to a high-viscosity liquid (or semi-solid) state at a certain transition temperature. These materials conform well to irregular surfaces and possess wetting properties like thermal greases, which considerably decrease the contact resistance at the distinctive interfaces. Because of this composite structure, phase change materials are capable of surviving against mechanical forces during shock and vibration, safeguarding the die or component from mechanical damage. Moreover, the semi-solid state of these materials at high temperature determines issues linked to "pump-out" under thermo-mechanical flexure.

When heated to a targeted transition temperature, the material considerably softens to a near liquid-like physical state in which the thermally conductive material slightly expands in volume. This volumetric growth makes the more thermally conductive material to flow into and replace the microscopic air gaps existed in between the heat sink and electronic component. With the air gaps filled between the thermal surfaces, a high degree of wetting of the two surfaces lessens the contact resistance.

In general, there are two types of phase changes materials:

. Thermally conductive and electrically insulating.
. Electrically conductive.

The main dissimilarity between the thermally and electrically conductive materials is the film or carrier that the phase change polymer is coated with. With the electrically insulating material, lowest amount of voltage isolation properties can be achieved.

Analysis of the thermal barrier function of Phase Change Materials in textiles

Producers can now use PCMs to give thermal comfort in a huge range of garments. But to know how much and what kind of PCM to apply, as well as modification of the textile, in order to make a garment fit for its purpose, it is essential to quantify the effect of the active thermal barrier offered by these materials.

The total thermal capacity of the PCM in many products depends on its specific thermal capacity and its quantity. The required quantity can be expected by considering the application conditions, the desired thermal effect and its duration and the thermal capacity of the specific PCM. The structure of the carrier system and the end-use product also affects the thermal efficiency of the PCM, which has to be measured with respect to the material selection and the product design.

Prospect of PCM

The main challenge in developing textile PCM structure is the method of their use. Encapsulation of PCMs in a polymeric shell is an evident selection, but it adds stiff weight to the active material. Efficient encapsulation, core-to-wall ratio, out put of encapsulation, stability during application and incorporation of capsules onto fabric structure are some of the technological aspects being measured.
Though PCMs are being promoted in various types of apparel and connected products, the applications in which they can really work are limited. As superior test methods are developed for PCMs, makers of PCM materials and garments will have to further cautiously target the markets in which their products do work well.

Conclusion

Since a huge amount has been invested in research and development in these areas in the developed counties, it is expected that very soon all-season outfits will be mass-produced. For example, in Britain, scientists have designed an acrylic fibre by integrating microcapsules covering Phase Change Materials. These fibres have been used for producing lightweight all-season blankets.

Many garment making companies in USA are now producing many of such garments, like thermal underwear and socks for inner layer, knit shirt or coated fleece for insulating layer; and a jacket with PCM interlines for outer layer, beside helmets, other head gears and gloves. Such clothing can maintain warm and comfortable temperatures in the extreme of both weathers. There is no doubt that textile which integrate PCMs will find their way into several uses in the near future.


Pcm In Textiles

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Saturday, October 15, 2011

Locating the Best Sleeping Bags For the Ideal Climate

!±8± Locating the Best Sleeping Bags For the Ideal Climate

Locating the best sleeping bags for the ideal climate and trail conditions is rather essential. Don't know what to look for? Well, this guide should help you make that decision.

Selection:

Slumber bags are calculated in loft. Loft is generally how "fluffy" the bag is. How high is it when it's laying on the ground. The taller it's, the more air "pockets" or dead airspace there is and the warmer it will keep you.

Simply because of disparity in the past of the temperature measurement of the best sleeping bags, there have been new testing modifications within the slumber bag market in America.

The Europeans have had a testing structure, for a while now, that has shown to be reliable in how it determines a sleeping bag's temperature range. It also gives more information by recognizing the matter that men and women have diverse opinions to what is a cozy sleeping temperature.

Some U.S. companies of backpacking sleeping bags have followed the European Norm (EN 13537) method of temperature screening. Without going into too much depth about how they arrive at these numbers, basically they check the best sleeping bags under stringent guidelines utilizing a clothed dummy sporting long underwear and a hat. Sensors on the mannequin record temperature readings.

The New Tag: A label utilizing this new testing approach displays:

* EN Comfort Rating for Women: This is an exterior air temperature that typical women would keep comfortably warm.

* EN Lower Limit Rating for Guys: This is an exterior air temperature that a typical man would keep comfortably warm.

* EN "Extreme" Ranking: This is an exterior air temperature that the sleeping bag would still keep a woman alive. These rankings must not be applied too seriously.

Take note that these numbers are centered on the fact that you are wearing a single layer of clothing and have a sleeping pad underneath the slumber bag.

Do not Remove This Label Under Penalty of the Sleeping Bag Police:

If the slumber bags that you are checking out have not adopted the EN standard, don't freak out. You can go by their temperature measurement. The only distinction is that these measurements are to be employed as a guideline only and don't take into account the male/female distinction. If you're like me and are generally cold whenever you sleep, then get a slumber bag with additional loft and a lower temperature number. The lower the number, the colder the external ambient temperature can be where the bag will keep you warm.

How Low Can You Go:

In either situation, using the old rating or the innovative EN, when choosing a bag, determine what type of weather and what time of year you will likely be utilizing it the most. If you are in the mountains and only intend to hike Spring, Summer and Fall, then get a three season sleeping bag. Find out the average lows for that coldest time of year which you will probably be backpacking and subtract 10 to 20 degrees and find a bag in that scale. (Example: say that the average low in the mountains throughout the spring is 20 degrees Fahrenheit, then take away 20 degrees and look for a sleeping bag that's rated at 0 degrees. Here is a requirement chart to help:

Bag Style Temperature Ranking (Fahrenheit)

Summer: 40 to 60

Three Season Bag: 10 to 40

Cold Weather: -10 to 10

Winter: -10 and Below

Shapes/Styles:

There are three basic shapes of the best sleeping bags for camping and backpacking:

* Mummy: Mummy sleeping bags are portioned broader at the shoulders and more narrow around the feet. These types of bags are the most "snug" fitting bags and therefore are even more successful in keeping you warmer, attributed to the absence of airspace between your body and the bag. Because of their structure, they're also one of the most lightweight. These kinds of bags also come with a hood which has a drawstring which can help keep heat around your head. By the way, up to 50% of heat loss from the body can take place from the head.

* Rectangular: These are exactly like the term suggests. A big rectangle. As a result of their shape, they have a tendency to be the least functional style of sleeping bag. There is a good deal of room within the bag for the body to heat up. Because of their heavy weight, they may be far better suited for a "Car Camping" adventure instead of a backpacking excursion. They do have the benefit of a pair of bags being able to be zipped jointly and become a sleeping bag for a couple instead of one individual. With this design, a full or queen air mattress underneath really contributes to a pleasant night's sleep. (Again not recommended for the back country).

* Semi-Rectangular: I call this the cross. This backpacking bag is rectangular at the head and then slims along towards the feet. With this form, you get extra room, but not as much weight as a true rectangular sleeping bag. For those who are claustrophobic, like me; we can get to sleep a little better inside a bag with extra room in it and still have some benefit from the shape.

There are also some different shapes intended specifically for body styles:

* Woman's: These tend to be a bit more narrow on the shoulders. Broader at the hips along with added padding in the upper body and foot box.

* Children's: These basically have "Kid Friendly" attributes for instance: pockets for their "stuff", a pocket to stuff and make a pillow at their head and a sleeping pad restraint system to ensure that the pad stays in place all night.

Features:

* Hood: as outlined previously with the Mummy Sleeping Bag, a hood having a drawstring can help retain body heat

* Draft Tube/Draft Flap: This is a flap or tube that runs along side the zipper. This flap helps reduce heat loss. When picking a hiking slumber bag, confirm that the flap is just sewn on the lining and not through the bag. Make sure you examine the zipper prior to purchasing to verify that the flap/tube doesn't conflict or get caught in the zipper path.

* Draft Collar: This is a tube at the base of the hood. It "closes" off the spot at the neck in order that air doesn't get away. When trying out a bag, make sure that this tube is comfortable.

* Foot Box: This is, as the name claims, the place around the feet. Several bags have extra room within the foot box to keep your boots or water bottles.

* Zipper: The zipper should come with big teeth and must function well. They must also not snag the fabric in the course of use.

* Pockets: Pockets can be an asset or a pain. If your bag includes pockets, be careful with just what you decide to put in them. Also, before buying the bag, take note of the pockets different places. Do you care to roll over onto your keys or MP3 player in the middle of the night?

* Length: Should you be taller when compared with the "average bear", there are backpacking sleeping bags that come in extended lengths.

Materials:

Fill: There are two basic choices of bag fills; Fabricated (polyester) and Down (insulating feathers of geese or ducks).

* Goose Down Sleeping Bag: There's nothing with a greater weight to warmth ratio when compared with down. A Goose Down sleeping bag is incredibly lightweight. The issue with down is if it ever gets wet, it loses its thermal capturing capability. Also, the drying out time frame for down is especially long. If your down bag becomes wet on the trail late in the day, you're in for a chilly night. Down is only for individuals most diligent in keeping their sleeping bag dry.

* Manufactured: The best sleeping bags have been becoming lighter and more efficient every year. They do weigh more than down bags, but if they do get wet, they keep more of their warming functionality. Additionally, they dry out a lot faster compared to down. So, the trade-offs are weight, warmth and drying faster.

Taking Care of Your Sleeping Bag:

Before setting up your backpacking bag, be sure you shake it out a couple of times. This will help "fluff" it up and boost the airspace.

When packing up your bag, never fail to stuff the bag into your stuff bag. (Is that repetitive?) Certainly do not roll up and fold the slumber bag, this will reduce the insulating properties quicker.

When not using your bag, never leave it inside a stuff bag, always hang it up or keep it in a loose storage bag. In the event you leave it stored inside a small bag, it can permanently decrease the insulation.

Don't forget that over time, from typical use, a hiking sleeping bag will lose its warming effectiveness. This is due to the fill getting a bit more compressed. This will cause the "air pockets" to disappear.

Lastly, understand and follow the care information from the manufacturer. They produce the best sleeping bags for hiking and backpacking and they understand how you can keep it in great shape.


Locating the Best Sleeping Bags For the Ideal Climate

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Monday, October 10, 2011

Twin, Heated Mattress Pad by Electrowarmth, Non-Fitted, Size 36 x 60, Model# T36 12V Used in Trucks, RV's, Campers

!±8± Twin, Heated Mattress Pad by Electrowarmth, Non-Fitted, Size 36 x 60, Model# T36 12V Used in Trucks, RV's, Campers

Brand : Electrowarmth | Rate : | Price : $87.57
Post Date : Oct 11, 2011 04:34:45 | Usually ships in 1-2 business days

ElectroWarmth 12-volt 60 X 36 Twin Size Bunk Warmer Pad.

  • Automatic Comfort Control with 7 Heat Settings
  • Plugs Into Your Cigarette Lighter Socket
  • Replaceable 5 Amp Fuse
  • 4 Amps Low Amperage Draw
  • Pre-Warms Your Bed for a Better Night s Sleep

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Thursday, October 6, 2011

Make Your Bed More Comfortable - Good Sleep Requires a Good Environment

!±8± Make Your Bed More Comfortable - Good Sleep Requires a Good Environment

It is a well known fact that every one requires a minimum of six hours of deep sleep every day without any sorts of disturbances and troubles. A good night's sleep makes one feel very energetic and comfortable during the day time. It relaxes our mind from all others sorts of tension and stress that we face in life and makes us more energetic and gives us much more stamina to work on.

In order to get all these sorts of stuff it is much important to have a good environment to sleep. Thus you have to make your bed more comfortable to have a good sleep peacefully and calmly. This is one the most important things that one has to concentrate upon to have a good sound sleep undisturbed and relaxed totally free from the stress, tension and panic of the world that we live in. Sleep takes us to a new world of fantasy full of dreams and pleasant feelings.

But some do get horror and terrific dreams at night times. These are usually referred to as the night mares which spoil the sleep of the individual waking him in the mid night and disturbing a lot thus not allowing him or her to sleep further. These types of dreams come due to thinking that we have. Yes, what ever we think in our heart only is depicted as dreams. So, before going to sleep try reading a good novel or try listening to melodies or do things that make you feel comfortable and pleasant. Then you can definitely avoid these sorts of horror nightmares.

To make one's bed more comfortable to sleep in the quality of the mattress that is used should be very soft and tender to feel comfortable. Also have good number of pillows to make you feel comfortable to sleep with. The bed should be a bit cushion like and very soft to sleep in, because if it is hard then this may spoil the sleep. Or even one can lay a good cushion on the floor and sleep on it for more comfort.

See to it that the place where you sleep has good odor and pleasant environment. Thus these are some of the tips to make one feel more comfortable to sleep during the night time. Thus don't miss the sleep during the night. It is the most essential one to boost up the energy factor in every one.


Make Your Bed More Comfortable - Good Sleep Requires a Good Environment

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Tuesday, October 4, 2011

Soft Heat Electric Heated Warming Massage Table Mattress Pad, White

!±8± Soft Heat Electric Heated Warming Massage Table Mattress Pad, White

Brand : Soft Heat | Rate : | Price : $69.79
Post Date : Oct 04, 2011 11:16:00 | Usually ships in 24 hours

Soft Heat Electric Heated Massage Table Warming Mattress Pad-No more laying down on cold massage tables, function meets comfort with this warming pad. The 233 thread-count 80-Percent poly/20-Percent cotton dobby stripe shell is incredibly soft and soothing but that's just one of the wonderful features of this pad. Constructed within the pad is the patented Safe and Warm low-voltage technology. This low-voltage mattress pad includes a small power supply box that changes 120 volt AC home current into non-hazardous low voltage DC current (very similar to a battery) to provide warmth, protection and safety even if the pad becomes wet. Unlike other warming pads with their bulky wires, the heating wires in the Soft Heat pads are so small, they are virtually unnoticeable and also give more of an even heat meaning-no hot or cold spots. The pad comes standard with one easy to read, easy to turn, non-slip computerized controller to adjust the temperature of the pad. With an automatic pre-heat and hold feature you simply turn it on and the pad will warm up on HI until it reaches the temperature that you pre set your dial on and then adjusts itself to hold it there. For your safety and convenience it has an automatic shut off feature that will shut the pad off after 10 hours just in case you forget. It also comes standard with built in over-temperature protection for that extra bit of safety and piece of mind. Anchor bands keep it in place to eliminate shifting or bunching and give better sheet fit. Easy care feature means that it's machine washable and dryable and will not stretch, pill or shrink giving you many years of warm luxurious use. Not recommended for use with an electric adjustable bed, water bed or blowup air beds (Sleep number beds are OK).

  • Patented non-hazardous low voltage Safe and Warm technology is safer than others on the market; saves energy; sleep better in a cooler room
  • No more bulky wires The ultra-thin wires inside the Soft Heat pads are almost impossible to feel; No hot or cold spots
  • Automatic pre-heat and temperature hold feature for convienience and built in over-temperature protection for safety and piece of mind
  • Single control automatically shuts off after 10 hours for convenience, safety and savings
  • Massage warming pad is completely machine washable and dryable without any pilling, shrinking or stretching

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