HTML Full Form is Hyper Text Markup Language. HTML is a system which is standardized to tag text files in order to attain color, font, graphic, as well as hyperlink effects in web pages. To simply put, it is one of the methods that help to move around the WWW by just clicking on specific texts known as ‘hyperlinks’. Clicking on these texts that represent the hyperlink opens that particular web page specified in the link or text.
In essence, HTML is a language with a set of ‘markup tags’ and the HTML documents can be described by the HTML tags. Therefore, every HTML tag refers to independent document content. In general, authors of websites use HTML to format the desired text as headings and titles. HTML is quite helpful to organize graphics in a web page and to link to various parts of the same website or to other websites.
HTML – High-Temperature Materials Laboratory
Full Form of HTML is High-Temperature Materials Laboratory. HTML is basically a DOE User facility which is dedicated to finding solutions to problems pertaining to materials, which can inhibit the reliability and efficiency of systems used for the purposes of energy conversion, power generation, use and distribution of energy. The HTML has six functional user centers that master in the characterization of materials.
These centers are dedicated to working with universities and industries to undertake the development of materials-based, environment-friendly, energy efficient transportation technology, which will eventually help the United States of America to utilize less petroleum. Technologies of concern include propulsion materials, light weighting materials, materials required for energy storage, catalysts, and thermoelectric.
Two of the main areas of development and research for HTML are Pressurized fluidized-bed combustion (abbreviated as PFBC) as well as integrated gasification combined-cycle (Abbreviated as IGCC). HTML research on these systems has covered examination of mechanism on strength development, surface reactions, ash deposition behavior under combustion atmospheres. The laboratory is active in the determination of strength development rates and ash deposition of the blended coals as the consequential sinters and ash depositors within the combustion process.
Laboratory capabilities include strength evaluation of ceramic materials or ash deposits up to temperatures 1500 degree Celsius; chemical analysis of surfaces, measurements of vapor phase and coal slag corrosion rates against ceramic materials; properties relating to thermal properties of various ceramic materials up to temperatures 1600 degree Celsius; among other features.