Friday, March 20, 2020
Smart Textile Essays
Smart Textile Essays Smart Textile Essay Smart Textile Essay Smart textiles is the modification of fibers, fabrics and special articals which is produceing day by day in different way and different techniques. Many intelligent textiles already feature in advanced types of clothing, principally for protection and safety and for added fashion or convenience. Smart materials or textiles can be defined as the materials and structures which have sense or can sense the environmental conditions or stimuli, whereas intelligent textiles can be defined as textile structures which not only can sense but can also react and respond to environmental conditions or stimuli. These stimuli as well as response, could be thermal, chemical, mechanical, electric, magnetic or from other source. Classification of Smart Textiles: According to functional activity smart textiles can be classified in three categories: ? Passive Smart Textiles: The first generations of smart textiles, which can only sense the environmental conditions or stimulus, are called Passive Smart Textiles. ? Active Smart Textiles: The second generation has both actuators and sensors. The actuators act upon the detected signal either directly or from a central control unit. Active Smart textiles are shape memory, chameleonic, water-resistant and vapour permeable (hydrophilic/non porous), heat storage, thermo regulated, vapour absorbing, heat evolving fabric and electrically heated suits. ? Ultra Smart Textiles: Very smart textiles are the third generation of smart textiles, which can sense, react and adopt themselves to environmental conditions or stimuli. A very smart or intelligent textile essentially consists of a unit, which works like the brain, with cognition, reasoning and activating capacities. The production of very smart textiles is now a reality after a successful marriage of traditional textiles and clothing technology with other branches of science like material science, structural mechanics, sensor and actuator technology, advance processing technology, communication, artificial intelligence, biology etc. Smart textile in Medicine: Due to astounding technological developments, technical textiles are extensively used in the healthcare industry today. In the field of medical application, technical textiles are not just used in contact with the skin, but also fulfill important functions within the body (intra-corporal applications like implants). Technical textiles offer medical and hygiene industry with unparalleled protection, comfortable. These highly specialized and bio- compatible technical textiles, used for medical and hygiene applications are called ââ¬Å"MEDTECH. â⬠The characteristics required of MEDTECH vary depending on the task for which they are to be used. Some applications demand a protective function, others a high absorptive capacity and some other others impermeability. characteristic of these textiles Depending on the nature of application; most of the medical products are disposable in nature and are made of nonwoven fabrics. In global markets disposables are fast replacing non-disposable health care textiles. Some areas of usage are: * Healthcare/ hygiene products- Include bedding, clothing, surgical clothes, products for feminine hygiene like sanitary napkins, baby and adult diapers etc. Non-implantable materials- For wound care that includes absorbent pad (wound contact layer, base material viscose, plastic film) and bandages (simple inelastic/elastic, orthopedic, plasters, gauzes, lint, padding) * Textiles in Extracorporeal devices- Like artificial kidney, liver and lungs. * Implantable materials- Like sutures (biodegradable and non-biodegradable), soft tissue implants, artificial tendon (meshes), artificial ligament, artific ial cartilage, orthopedic implants artificial joint, cardiovascular implants vascular grafts, heart valves. Agro Textiles: Agriculture has been amongst the most primal occupations of the humankind and is still a major industry, globally. In this era of modernization and high technological advancements, it has spread its horizons and started using man-made, non-conventional textiles, called ââ¬Å"technical textilesâ⬠. Tapping the potential of technical textiles and putting their vital properties to an advantage; agriculture, horticulture, forestry and fishing segments (all the four sectors combined together are popularly called as ââ¬Å"Agrotechâ⬠sector) are increasingly using them for equipment development and other applications. This textile sector comprises of all textiles that are used in growing, harvesting, protection and storage of either crops or animals. It includes diverse items such as fishing nets and fish-lines, ropes, shade fabrics, mulch mats, woven and non-woven covers for crops, bird protection nests, etc. These textiles are driving the sector profitably by improving the productivity and reducing the need for chemicals. Some of the purposes for which these textiles are being increasingly used are as follows: * Preventing erosion and paving way for a forestation. In greenhouse cover and fishing nets. * For Layer separation in fields. * In Nets for plants, rootless plants amp; protecting grassy areas. * As sun screens (since they have adjustable screening) and wind shields. * As packing material and in bags for storing grass (that has been mowed). * Controlling stretch in knitted nets. | Home Textiles: Seen as a mightily expanding and changing sector in the global textile industry, the presence of technical textiles is not merely confined to industrial applications and is becoming a ubiquitous phenomenon in our day to day activities as well. The new promise of technical textiles is generation of products (by combining the latest developments in advanced flexible materials with advances in process technologies) that eventually have a direct impact upon all sorts of consumer textile markets, including both clothing and furnishings. These are called ââ¬Å"HOMETECHâ⬠. One of the largest technical textile markets, this sector comprises household textiles, furnishings (used in contract applications) and upholstered furniture industry (including fiberfill and wadding applications in bedding, cushions, sleeping bags and furniture backings). Some of the highly useful applications of HOMETECH include: * Woven amp; knit wipes (cleaning wipes for domestic applications) * Nonwoven wipes (floor mops) * Tickingââ¬â¢s (for filled products like pillows, duvets, cushions) * Mattress components (Flanging and quilt backing, spring wrap) * Spring insulators Flat fabrics ( used to cover springs in beds or upholstery) * Platform cloth (fabrics used as a base for cushions on upholstered furniture) * Dust cloths Fabrics attached to base of furniture Skirt linings and other fabrics for use in upholstered furniture, bedding etc * Carpet backings (used as primary as well as secondary backing for tufted carpets) Construction Textiles: Civil engineering and building industry are an integral part of the development of human society as they involve the planning, design, building, operation and maintenance of infrastructure. The venturing of technical textiles or high-performance textiles in this sector has given a great impetus to the quali ty of construction. These textiles are used in the construction of buildings, dams, bridges, tunnels and roads and collectively comprise the ââ¬Å"Buildtechâ⬠sector. They offer mechanical properties such as lightness, strength and resilience as well as resistance to many factors such as creep, degradation by chemicals and pollutants in the air or rain and other construction material as well as the effects of sunlight and acid. These textiles play an important role in the modernization of infrastructure. Some of the major products covered under this sector are used in; * Hoardings and Signageââ¬â¢s. * Scaffolding Nets. * Awnings and canopies. * Tarpaulins. Architectural membranes. Transport Textiles Among other sectors, the automotive industry is one of the largest single markets for technical textiles and one of the most diverse as well. This market comprises of automobiles, trains, marine vehicles and planes. Technical textiles that are used in this automotive or transport sector are called à ¢â¬Å"MOBILTECH. â⬠The latest developments in aircraft, ship building as well as motor vehicle and train manufacture, all can be largely attributed to MOBILTECH, a non apparel textile. Mobiltech today covers not only isolation and safety aspect but also focuses on comfort and style. The customers look for aesthetically pleasing interiors, great comfort and fuel economy. Textile components in automobiles consist of either visible component like upholstery, carpets, seat belts, headliners etc. or concealed components like tire cords, hoses, belts, airbags etc. Military: One of the main reasons for the rapid development of Smart textiles is the important investment make by the military industry. This is because they are used in different projects such as extreme winter condition jackets or uniforms that change colour so as to improve camouflage effects. Nowadays, the military industry has become aware of the advantage of sharing knowledge with the various industrial sectors, because with joint collaboration far better results can be obtained through team-work. Georgia Tech was the pioneering institute for the development of SFIT that integrates electronics. During a project funded by the US Naval Department in 1996, they have developed a Wearable Motherboard (GTWM commercial name is Smart shirt) [38-39], which was manufactured for use in combat conditions. The garment uses optical fibres to detect bullet wounds and special sensors that interconnect in order to monitor vital signs during ombat conditions. Eco Textiles: Environmental threats loom large on almost every nation in the world today. With this threat gaining its stature day by day, Eco Textiles gain utmost importance as one of the most useful resources that help promote new innovations, in an eco-friendly manner. OEKTECH is the term used for technical textiles that are used for environmental protection. It stands for new ideas and interesting concepts in the area of environmental protection, waste disposal (including innovative filtration media) and new recycling technologies. It is opening up new avenues for environmental engineers, safety engineers and personnel in environmental protection agencies. These eco- friendly textiles provide a range of environmentally responsible alternatives to other resource hungry materials. They tap into both post-consumer and post-industrial waste streams amp; scrap and reuse them for manufacturing an extremely durable and eco-friendly textile. They not only lead to reduction of waste but also more importantly, save the rapidly depleting natural resources. Some of the features of these textiles are: * They utilize ecologically grown fibers. They are processed with less damaging inputs. * The processing units are equipped with good sewage treatment. * The fabrics are of good quality and long lasting. Geotextiles: Geotextiles are smart textiles that consist of a stable network that retains its relative structure during handling, placement and long-term service. A Geotextile can be defined as ââ¬Å"permeable geosynthetic co mprised solely of textiles. â⬠Geotextiles are special fabrics made for use in geological situations. They are rot-proof and permeable to water. They can be heavy duty or light duty, black, white or colored. Available in woven and non-woven forms, they apply to a broad range of civil engineering construction, paving, drainage and other applications. Geotextiles are extensively used with soil, rock, earth or any other geotechnical engineering-related material, as an integral part of human-made project, structure or system. These engineered Geotextiles perform three basic functions: separation, stabilization and filtration. Many application areas: * Roadways, parking lots, loading areas and construction sites * Prevent drainage systems from clogging with fine particles * Filtration, Protection and separation function * Fluid transmission For waterway erosion control * Reduce soil piping and embankment erosion * Prevention of weed growth (in horticulture applications) * Moisture conservation (in horticulture applications) Packaging Textiles: Packaging textiles include all textiles packing material for industrial, agricultural and other goods. The demand for packing material is directly prop ortional to economic growth, industrial production and trade as goods are produced and then distributed both locally and internationally. The growing (environmental) need for reusable packages and containers is opening new opportunities for textile products in this market. Sacks and bags made of traditional jute, cotton or natural fiber are gradually casting way for modern synthetic fibers. These technical textiles, used in packaging and subsequent transportation are called ââ¬Å"PACKTECH. â⬠It is well known that these fabrics are ideal for many kinds of packaging. At one end, PACKTECH includes heavyweight, dense woven fabrics (used for bags, sacks, flexible intermediate bulk carriers and wrappings for textile bales and carpets) and on the other end, it includes lightweight non wovenââ¬â¢s used as durable papers, tea bags and other food and industrial product wrappings. The use of textile materials in consumer packaging is exhibited in the following products: * FIBC big bags (Flexible Intermediate Bulk Containers),for powdered and granular materials * Laundry bags and other bulk packaging products * Sacks for storage etc * Twine and string for tying packages, etc (excludes agricultural applications) * Non-paper tea bags and coffee filters * Food soaker pads * Net packaging for storing, packing, transporting, retailing foodstuffs, toys, * Woven fiber strapping, lightweight mailbags. * Soft luggage Sport tech: Todayââ¬â¢s sports demand high performance equipment and apparel. The light weight and safety features of Sport tech have become important in their substitution for other materials. These high-functional and smart textiles are increasingly adding value to the sports and leisure industry by combining utilitarian functions with wearing comfort that leads to achieving high level of performance. A few areas where these textiles are being increasingly used are- Material technology and design, of equipment, Biomechanics and the engineering aspects of sports machinery, Surface treatment of equipment, Sportswear, Sports footwear, Artificial turfs, sleeping bags, ballooning and parachute fabrics. Solar sale Applicable textile: The main application of solar cells in textile is the electric alimentation of integrated electronic devices, e: recharging mobile phone, Mp3 player etc. . Uses of solar cells on textile substrate Modern Computing: In our society communication tools, interactivity and portable devices are one of the largest sources of innovation and represent a tremendous market. The integration of portable electronics devices in textiles appeared as a natural market. The first innovation was a keyboard made in a single layer of fabric using capacitive sensing, where an array of embroidered or silk-screened electrodes make up the points of contact. A fingers contact with an electrode can be sensed by measuring the increase in the electrodes total capacitance. It is worth noting that this can be done with a single bidirectional digital I/O pin per electrode, and a leakage resistor sewn in highly resistive yarn. Capacitive sensing arrays can also be used to tell how well a piece of clothing fits the wearer, because the signal varies with pressure. Several versions of capacitive or flexible keyboards in textile materials Conductive materials: There are two strategies to create electrical or thermal conductive fabrics and two types of materials, the metals and the polymers. The same materials could be used for the both conductivity (thermal and electric), because the two processes are similar and results of an electronic agitation/conduction. The first strategy uses high wicking finishes (ink) with a high metallic content that still retains the comfort required for clothing. With the addition of nickel, copper, silver or carbon coatings of varying thickness, these finishes provide a versatile combination of physical and electrical properties for a variety of demanding applications. Examples of conductive inks used in textiles The second strategy consists in the direct use of conductive yarns. The yarn could constitute metal such as silver, copper, etc. or conductive polymer such as polythiophene, polyaniline, and their derivatives although there are many different trademarks commercialising these materials, they all have the same main properties. Examples of conductive yarn used in textiles Conclusions A few years ago, smart textiles were presented as imaginary products and as a non competitive market. After scientific efforts and development phases, nowadays SFIT are an implanted customer interest and are presented as the future of the textile industry. A lot of commercial products are available and, as it was presented during this document; a lot of scientist is developing new solutions, ideas and concrete products. Some approximations announce a market of 1 billion dollars by 2010 which certainly explains the current passion for these news topics.
Tuesday, March 3, 2020
Word Choice Fewer vs. Less - Proofread My Papers Academic Blog
Word Choice Fewer vs. Less - Proofread My Papers Academic Blog Word Choice: Fewer vs. Less Confusions between ââ¬Å"fewerâ⬠and ââ¬Å"lessâ⬠can provoke fury among pedants: In the UK, one store even changed its signs after a campaign to enforce correct grammar! The difference between ââ¬Å"fewerâ⬠and ââ¬Å"lessâ⬠is subtle, though, so itââ¬â¢s easy to mix them up in your written work (or on your shop signs) if youre not careful. Fewer (Countable Quantities) The word ââ¬Å"fewerâ⬠means ââ¬Å"a smaller number of people or things.â⬠More specifically, ââ¬Å"fewerâ⬠applies to things you can count or number, like stones or apples: There were seven apples in this bowl, now there are four; thatââ¬â¢s three fewer than yesterday. We say ââ¬Å"fewerâ⬠here because ââ¬Å"appleâ⬠is a countable noun (i.e., apples can be counted out as individual apples). Less (Uncountable Quantities) The word ââ¬Å"lessâ⬠simply means ââ¬Å"not so muchâ⬠or ââ¬Å"smaller in amount.â⬠It differs from ââ¬Å"fewerâ⬠by applying principally to uncountable nouns, usually substances or concepts that cannot be counted individually, such as water or pain: My shoulder still aches, but Iââ¬â¢m in less pain than I was. The use of ââ¬Å"lessâ⬠indicates the pain has reduced. However, it doesnââ¬â¢t imply a severe pain is an accumulation of smaller pains in the same way that a bowl of apples contains several apples. Fewer or Less? A good tip for knowing when to use ââ¬Å"fewerâ⬠or ââ¬Å"lessâ⬠is to consider whether the word modified is singular or plural, since singular terms take ââ¬Å"lessâ⬠and plural terms take ââ¬Å"fewer.â⬠This can be judged by whether the word would usually be followed by ââ¬Å"isâ⬠or ââ¬Å"are.â⬠For instance, we say ââ¬Å"water is wetâ⬠rather than ââ¬Å"waters are wetâ⬠because water is a singular noun. Likewise, we say ââ¬Å"apples are deliciousâ⬠rather than ââ¬Å"apples is deliciousâ⬠because ââ¬Å"applesâ⬠is plural. By working out whether were describing a singular or plural noun, we determine which of ââ¬Å"fewerâ⬠or ââ¬Å"lessâ⬠to use: Singular/Countable Nouns = Fewer Plural/Uncountable Nouns = Less Time, Money and Distance One more thing to keep in mind is that quantities of time, money and distance usually take ââ¬Å"lessâ⬠rather than ââ¬Å"fewer.â⬠This is because we treat measurements as singular rather than plural. For example, although $100 could be counted out as one hundred individual dollars, we usually think of it as a single quantity of one hundred dollars. Hence we say ââ¬Å"$100 is too much to pay,â⬠not ââ¬Å"$100 are too much to pay.â⬠Likewise, when it comes to ââ¬Å"fewerâ⬠and ââ¬Å"less,â⬠we usually say ââ¬Å"I have less than $100,â⬠not ââ¬Å"I have fewer than $100.ââ¬
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