Tonal Innovation Center (TONIC) hosted the second annual International Musical Instruments Seminar in Joensuu, Finland on 14th September- 16th September 2011.
The document discusses Renolit's AlkorGreen roofing system and the benefits of green roofs. It provides background on Renolit's 30+ years of experience and describes the key components of the AlkorGreen system, including waterproofing membranes, drainage layers, and sedum/substrate layers. It then outlines the different types of extensive, semi-intensive, and intensive green roofs and their characteristics. Finally, it summarizes the environmental, economic, and development benefits of green roofs, such as reduced energy costs, increased roof lifespan, stormwater management, and aesthetic value.
This document discusses sound insulation and soundproofing. It defines key terms like sound, decibel, and reverberation. Sound insulation refers to reducing sound transmission through building elements like walls and floors. Different materials have varying abilities to absorb or block sound transmission. Common sound insulating materials include glass/rock wool, foamed plastics, quiet batts, and studio foam. Proper room arrangement, solid walls, planning for single-story structures, balcony placement, and courtyards can help reduce unwanted noise in buildings. Mass and rigidity help materials resist sound, while openings decrease sound blocking ability.
The Serenity Wall and Ceiling Panels are designed to provide excellent sound absorption whilst enhancing the décor of any room. Our Serenity Wall Panels provide the simple yet important function of absorbing sound across the entire frequency range, whether it’s in a commercial, hospitality, or educational setting, in fact in any area where excess reverberation is a problem. The Serenity can reduce sound by cutting down on the harsh echoes and reverberated sound reflecting off hard surfaces making it more tolerable and comfortable for everyone.
Please contact Moving Designs on 0845 6432198.
The client is Sandra Briggs, a 47-year-old sales assistant who enjoys nature, walking outdoors, reading, and watching films. She likes metallic pinks and purples as well as basic shades of green. Her favorite theme is floral. While not very interested in art, she finds intricate pencil drawings and organic natural forms like trees and mountains appealing. An image she likes depicts an organic forest photograph that makes her living room feel calm and peaceful.
Wood has been used as a construction material for hundreds of thousands of years. Some of the earliest timber homes and structures date back over 10,000 years, and wood construction advanced significantly during the Roman Empire with the introduction of timber cranes. Today, wood is still widely used in construction for buildings, furniture, and infrastructure due to its strength, workability, light weight, durability, and renewability as a natural resource. While wood maintenance can be higher than other materials and it is prone to pest and rot damage, treatments exist to protect wood structures.
Consequences of non using of green productsAnju Thomas
Green products are those that protect the environment by using natural ingredients instead of artificial ones. Compact fluorescent light bulbs (CFLs) are an example of a green product, as they are more efficient than incandescent bulbs and reduce electricity bills. While incandescent bulbs have disadvantages like generating radio frequency noise and poor color rendition, their disposal can also harm the environment due to mercury content. Switching to CFLs results in lower electricity costs and is better for the environment.
Our manufacturer has over 50 years of experience in wood manufacturing and acoustic expertise. They produce acoustic panels under the TAVINEL and TAVILINE brands for auditoriums, concert halls, and other spaces. Their panels are customizable and tested for acoustic performance. They also provide complete acoustic solutions and have experience advising on acoustic treatments. Their products are made from natural wood veneers and meet European fire safety standards.
The document discusses Renolit's AlkorGreen roofing system and the benefits of green roofs. It provides background on Renolit's 30+ years of experience and describes the key components of the AlkorGreen system, including waterproofing membranes, drainage layers, and sedum/substrate layers. It then outlines the different types of extensive, semi-intensive, and intensive green roofs and their characteristics. Finally, it summarizes the environmental, economic, and development benefits of green roofs, such as reduced energy costs, increased roof lifespan, stormwater management, and aesthetic value.
This document discusses sound insulation and soundproofing. It defines key terms like sound, decibel, and reverberation. Sound insulation refers to reducing sound transmission through building elements like walls and floors. Different materials have varying abilities to absorb or block sound transmission. Common sound insulating materials include glass/rock wool, foamed plastics, quiet batts, and studio foam. Proper room arrangement, solid walls, planning for single-story structures, balcony placement, and courtyards can help reduce unwanted noise in buildings. Mass and rigidity help materials resist sound, while openings decrease sound blocking ability.
The Serenity Wall and Ceiling Panels are designed to provide excellent sound absorption whilst enhancing the décor of any room. Our Serenity Wall Panels provide the simple yet important function of absorbing sound across the entire frequency range, whether it’s in a commercial, hospitality, or educational setting, in fact in any area where excess reverberation is a problem. The Serenity can reduce sound by cutting down on the harsh echoes and reverberated sound reflecting off hard surfaces making it more tolerable and comfortable for everyone.
Please contact Moving Designs on 0845 6432198.
The client is Sandra Briggs, a 47-year-old sales assistant who enjoys nature, walking outdoors, reading, and watching films. She likes metallic pinks and purples as well as basic shades of green. Her favorite theme is floral. While not very interested in art, she finds intricate pencil drawings and organic natural forms like trees and mountains appealing. An image she likes depicts an organic forest photograph that makes her living room feel calm and peaceful.
Wood has been used as a construction material for hundreds of thousands of years. Some of the earliest timber homes and structures date back over 10,000 years, and wood construction advanced significantly during the Roman Empire with the introduction of timber cranes. Today, wood is still widely used in construction for buildings, furniture, and infrastructure due to its strength, workability, light weight, durability, and renewability as a natural resource. While wood maintenance can be higher than other materials and it is prone to pest and rot damage, treatments exist to protect wood structures.
Consequences of non using of green productsAnju Thomas
Green products are those that protect the environment by using natural ingredients instead of artificial ones. Compact fluorescent light bulbs (CFLs) are an example of a green product, as they are more efficient than incandescent bulbs and reduce electricity bills. While incandescent bulbs have disadvantages like generating radio frequency noise and poor color rendition, their disposal can also harm the environment due to mercury content. Switching to CFLs results in lower electricity costs and is better for the environment.
Our manufacturer has over 50 years of experience in wood manufacturing and acoustic expertise. They produce acoustic panels under the TAVINEL and TAVILINE brands for auditoriums, concert halls, and other spaces. Their panels are customizable and tested for acoustic performance. They also provide complete acoustic solutions and have experience advising on acoustic treatments. Their products are made from natural wood veneers and meet European fire safety standards.
This document provides recommendations for acoustic treatments in schools to improve classroom acoustics. It suggests controlling background noise, reverberation times, and signal-to-noise ratios. Specific recommendations include using sound absorbing materials on ceilings, walls and floors; installing insulated exterior walls and windows; separating noisy spaces; and reducing mechanical system noise. Proper acoustic treatments can improve speech intelligibility and reduce distractions in classrooms and other educational spaces.
This document discusses various acoustic materials used for sound absorption, diffusion, and noise control. It provides details on stackable foam panels, fabric wrapped panels, ceiling clouds, fiberglass blankets and rolls, pyramidal and quadratic diffusers, and acoustic barriers. The materials discussed are suitable for a variety of spaces including recording studios, theaters, offices, homes and more. They help reduce reverberation, echoes, and noise in an aesthetically pleasing way while also being durable and fire resistant.
Acoustical Case study - Indian Mall , ManjeriSwarnaSajith
The document discusses the acoustics of a 5-screen theatre located in Manjeri, India. Three layers of acoustic material are used on the walls, including a 10 cm gap filled with charcoal between walls to cancel noise and vibration. The ceiling uses gypsum and aerated material over two acoustic layers. The floor is made of 7.5 cm of steel and concrete with an epoxy finish. Proper acoustics are achieved through adjustments to the screen angle, speaker placement, and layered acoustic wall and ceiling materials to reduce noise and vibrations within the theatre.
Reconstruction of the Ancient Thamizh Yazh and Hindustani Swaramandal using ...Padmanabhan Krishnan
Reconstruction of the Ancient Thamizh Yazh and Hindustani Swaramandal using Carbon Fabric/ epoxy Matrix Composite Materials and patent filing is briefly described here.
This document discusses various types of acoustical materials used to control sound. It describes sound absorbers like acoustical foam panels, fabric wrapped panels, and ceiling tiles that are used to eliminate sound reflections and reduce reverberation. These products are used in recording studios, broadcast facilities, and other commercial and industrial spaces. The document also provides details on the construction and specifications of one such acoustical wall panel.
The document discusses noise control in architecture. It defines noise as unwanted sound and explains how sound intensity level is measured scientifically using a logarithmic scale. There are two main sources of noise: airborne noise transmitted through air, and structure-borne noise transmitted through building materials. Noise control techniques in architecture aim to reduce transmitted sound levels by selecting appropriate sound insulating materials and redirecting sound paths away from receivers using barriers. Case studies demonstrate how architectural design integrates these approaches.
This document discusses various types of acoustic materials used to control sound, including sound absorbers, diffusers, barriers, and reflectors. It provides details on common materials like acoustic foam panels, fabric wrapped panels, and ceiling tiles. Sound absorbers are porous materials that eliminate sound reflections, while diffusers scatter sound waves. Barrier materials reduce airborne sound transmission. Prices for different acoustic materials range from Rs. 100-2500 per square foot depending on the type, thickness, and material.
Check out our range of Acoustic Wall Panels from The Total Office in UAE. Add a polished look to your office space, worships or studios. Available in multiple fabric types for all styles of walls and ceilings.
This document discusses noise control in buildings. It defines noise and sound intensity, and explains that the goal of building design is to control unwanted noise while enhancing desired sound. It describes common internal and external noise sources in buildings. It also discusses the Sound Transmission Class rating used to measure noise insulation of building materials. Finally, it provides details on construction techniques for walls, windows, doors, floors and roofs to improve a building's acoustic performance, such as increasing wall thickness, using staggered studs, sealing cracks and adding sound absorbing materials.
Direct fabrics Acoustic Curtain - Understanding Acoustic CurtainsEdward Simon
A detailed slide show about acoustic curtains and what the test are surrounding acoustics in textiles.
ENISO 10140
ENISO 354
https://www.direct-fabrics.co.uk/curtains/acoustic
Full information about the Direct Fabrics acoustic curtain range as at October 2020.
Wood is an effective acoustic material due to its ability to absorb and dampen sound vibrations through internal friction within its cellular structure. The Sydney Opera House effectively utilizes various types of wood in its construction to enhance acoustic performance, including white birch plywood panels in the concert hall ceiling which help reduce echoes, and brush box timber used for wall panels and floors for its warm color, grain, durability and acoustic insulation. The architect designed the Sydney Opera House interiors primarily with wood to provide acoustic warmth and contrast to the heavy concrete shells.
This document provides an overview of Dr. Kenneth P. Roy's background and expertise in architectural acoustics and green building indoor environmental quality. It outlines his participation and leadership roles in numerous acoustical standards organizations. The document then discusses current challenges with acoustic comfort in buildings and evolving workplace designs that integrate different functional spaces. It reviews approaches to acoustic comfort in the LEED green building rating system, with a focus on offices, healthcare, and schools. Overall, the document emphasizes the importance of acoustic comfort as an aspect of indoor environmental quality in building design.
The document discusses factors that affect acoustics in buildings and acoustic design considerations for different types of buildings. It covers topics like reverberation time, loudness, focusing, echoes, resonance, and noise criteria. For different building types like lecture halls, classrooms, open offices, and concert halls, it provides recommendations for acoustic design including optimal reverberation times, sound absorption placement, limiting echoes and dead spots, and ensuring speech intelligibility. The document provides guidance on achieving good acoustics for various functions through room shape, materials used, and mechanical system design.
The document discusses various acoustical materials used to absorb and diffuse sound in buildings. It describes common materials like acoustical panels, ceiling tiles, baffles, banners, diffusers, noise barriers, and acoustical fabrics. These materials are used to improve speech intelligibility, reduce echoes and reverberation, lower sound pressure levels, and improve overall acoustics in spaces. The document provides details on the purpose, application, and benefits of different acoustical products.
This document discusses various materials that can be used on ceilings to absorb unwanted sound. It describes how sound works and defines noise as unwanted sound. It then discusses different types of sound absorbing ceiling materials like acoustic foam panels, acoustic cloud ceilings, baffle ceilings, acoustic ceiling tiles, acoustic mineral wool, mass loaded vinyl, echo-absorbers, solid wood acoustic ceilings, and acoustic foam egg panels. Each material is described in terms of its appearance, construction, effectiveness in absorbing sound, and common applications.
The document discusses the acoustics design considerations for recording studios. It explains that recording studios aim to have very short reverberation times, unlike auditoriums which enhance reverberation. This requires the enclosure to be very absorbent of sound and isolated from external noise. Common techniques used include double wall construction, soundproofing, bass traps, diffusers, absorbers and decoupling floors. The document provides examples of materials used like fiberglass, sheetrock and rubber for insulation and isolation.
This document describes a bamboo whistle called the Bamboo Special. It has several key benefits: it is compatible with the iPhone 4, portable, lightweight, does not require electricity, and avoids issues with finding electrical outlets. The manufacturing process involves selecting bamboo, cutting and drilling it, decorating it, and takes about 2 hours at a cost of $80. The bamboo material makes the whistle stronger, more flexible, and louder sounding than plastic or some metals.
The Serenity Wall and Ceiling Panels are designed to provide excellent sound absorption whilst enhancing the décor of any room. Our Serenity Wall Panels provide the simple yet important function of absorbing sound across the entire frequency range, whether it’s in a commercial, hospitality, or educational setting, in fact in any area where excess reverberation is a problem. The Serenity can reduce sound by cutting down on the harsh echoes and reverberated sound reflecting off hard surfaces making it more tolerable and comfortable for everyone.
Please contact Moving Designs on 0845 6432198.
This document discusses Flaxwood, a new manmade tonewood material composed of polymer infused with spruce fiber. It provides several key advantages over traditional tonewoods, such as being impervious to temperature and humidity fluctuations and not being affected by restrictions of the Lacey Act. Guitars made of Flaxwood are produced through injection molding, giving them uniform and consistent parts and dimensions. While the production process drives up costs, hybrid models with composite necks joined to alder bodies provide a more affordable option at $999-1299. Flaxwood is being marketed and sold in 19 countries, though uptake has been slower in the US than Europe.
Woodcomfort floors feature a multilayer structure combining cork and wood veneer to provide beauty, comfort, and durability. The cork layer offers superior acoustic and thermal insulation properties, reducing noise transmission and maintaining a comfortable temperature. Cork is a renewable material that is sustainably harvested from cork oak trees and has unique insulating qualities that make it ideal for flooring applications. Woodcomfort floors offer benefits like noise reduction, increased comfort, and a warmer feel.
speaker thinnr than paper! PVDF piezo electric filmShubham Gupta
Polyvinylidene Fluoride PiezoelectricFilm (PVDF) is a relatively new class of piezo-electric device.PVDF material is a thin plastic polymersheet with its molecules aligned in auniform pattern. It has a electrically conductive coating deposited on each side of the sheet.
This document provides recommendations for acoustic treatments in schools to improve classroom acoustics. It suggests controlling background noise, reverberation times, and signal-to-noise ratios. Specific recommendations include using sound absorbing materials on ceilings, walls and floors; installing insulated exterior walls and windows; separating noisy spaces; and reducing mechanical system noise. Proper acoustic treatments can improve speech intelligibility and reduce distractions in classrooms and other educational spaces.
This document discusses various acoustic materials used for sound absorption, diffusion, and noise control. It provides details on stackable foam panels, fabric wrapped panels, ceiling clouds, fiberglass blankets and rolls, pyramidal and quadratic diffusers, and acoustic barriers. The materials discussed are suitable for a variety of spaces including recording studios, theaters, offices, homes and more. They help reduce reverberation, echoes, and noise in an aesthetically pleasing way while also being durable and fire resistant.
Acoustical Case study - Indian Mall , ManjeriSwarnaSajith
The document discusses the acoustics of a 5-screen theatre located in Manjeri, India. Three layers of acoustic material are used on the walls, including a 10 cm gap filled with charcoal between walls to cancel noise and vibration. The ceiling uses gypsum and aerated material over two acoustic layers. The floor is made of 7.5 cm of steel and concrete with an epoxy finish. Proper acoustics are achieved through adjustments to the screen angle, speaker placement, and layered acoustic wall and ceiling materials to reduce noise and vibrations within the theatre.
Reconstruction of the Ancient Thamizh Yazh and Hindustani Swaramandal using ...Padmanabhan Krishnan
Reconstruction of the Ancient Thamizh Yazh and Hindustani Swaramandal using Carbon Fabric/ epoxy Matrix Composite Materials and patent filing is briefly described here.
This document discusses various types of acoustical materials used to control sound. It describes sound absorbers like acoustical foam panels, fabric wrapped panels, and ceiling tiles that are used to eliminate sound reflections and reduce reverberation. These products are used in recording studios, broadcast facilities, and other commercial and industrial spaces. The document also provides details on the construction and specifications of one such acoustical wall panel.
The document discusses noise control in architecture. It defines noise as unwanted sound and explains how sound intensity level is measured scientifically using a logarithmic scale. There are two main sources of noise: airborne noise transmitted through air, and structure-borne noise transmitted through building materials. Noise control techniques in architecture aim to reduce transmitted sound levels by selecting appropriate sound insulating materials and redirecting sound paths away from receivers using barriers. Case studies demonstrate how architectural design integrates these approaches.
This document discusses various types of acoustic materials used to control sound, including sound absorbers, diffusers, barriers, and reflectors. It provides details on common materials like acoustic foam panels, fabric wrapped panels, and ceiling tiles. Sound absorbers are porous materials that eliminate sound reflections, while diffusers scatter sound waves. Barrier materials reduce airborne sound transmission. Prices for different acoustic materials range from Rs. 100-2500 per square foot depending on the type, thickness, and material.
Check out our range of Acoustic Wall Panels from The Total Office in UAE. Add a polished look to your office space, worships or studios. Available in multiple fabric types for all styles of walls and ceilings.
This document discusses noise control in buildings. It defines noise and sound intensity, and explains that the goal of building design is to control unwanted noise while enhancing desired sound. It describes common internal and external noise sources in buildings. It also discusses the Sound Transmission Class rating used to measure noise insulation of building materials. Finally, it provides details on construction techniques for walls, windows, doors, floors and roofs to improve a building's acoustic performance, such as increasing wall thickness, using staggered studs, sealing cracks and adding sound absorbing materials.
Direct fabrics Acoustic Curtain - Understanding Acoustic CurtainsEdward Simon
A detailed slide show about acoustic curtains and what the test are surrounding acoustics in textiles.
ENISO 10140
ENISO 354
https://www.direct-fabrics.co.uk/curtains/acoustic
Full information about the Direct Fabrics acoustic curtain range as at October 2020.
Wood is an effective acoustic material due to its ability to absorb and dampen sound vibrations through internal friction within its cellular structure. The Sydney Opera House effectively utilizes various types of wood in its construction to enhance acoustic performance, including white birch plywood panels in the concert hall ceiling which help reduce echoes, and brush box timber used for wall panels and floors for its warm color, grain, durability and acoustic insulation. The architect designed the Sydney Opera House interiors primarily with wood to provide acoustic warmth and contrast to the heavy concrete shells.
This document provides an overview of Dr. Kenneth P. Roy's background and expertise in architectural acoustics and green building indoor environmental quality. It outlines his participation and leadership roles in numerous acoustical standards organizations. The document then discusses current challenges with acoustic comfort in buildings and evolving workplace designs that integrate different functional spaces. It reviews approaches to acoustic comfort in the LEED green building rating system, with a focus on offices, healthcare, and schools. Overall, the document emphasizes the importance of acoustic comfort as an aspect of indoor environmental quality in building design.
The document discusses factors that affect acoustics in buildings and acoustic design considerations for different types of buildings. It covers topics like reverberation time, loudness, focusing, echoes, resonance, and noise criteria. For different building types like lecture halls, classrooms, open offices, and concert halls, it provides recommendations for acoustic design including optimal reverberation times, sound absorption placement, limiting echoes and dead spots, and ensuring speech intelligibility. The document provides guidance on achieving good acoustics for various functions through room shape, materials used, and mechanical system design.
The document discusses various acoustical materials used to absorb and diffuse sound in buildings. It describes common materials like acoustical panels, ceiling tiles, baffles, banners, diffusers, noise barriers, and acoustical fabrics. These materials are used to improve speech intelligibility, reduce echoes and reverberation, lower sound pressure levels, and improve overall acoustics in spaces. The document provides details on the purpose, application, and benefits of different acoustical products.
This document discusses various materials that can be used on ceilings to absorb unwanted sound. It describes how sound works and defines noise as unwanted sound. It then discusses different types of sound absorbing ceiling materials like acoustic foam panels, acoustic cloud ceilings, baffle ceilings, acoustic ceiling tiles, acoustic mineral wool, mass loaded vinyl, echo-absorbers, solid wood acoustic ceilings, and acoustic foam egg panels. Each material is described in terms of its appearance, construction, effectiveness in absorbing sound, and common applications.
The document discusses the acoustics design considerations for recording studios. It explains that recording studios aim to have very short reverberation times, unlike auditoriums which enhance reverberation. This requires the enclosure to be very absorbent of sound and isolated from external noise. Common techniques used include double wall construction, soundproofing, bass traps, diffusers, absorbers and decoupling floors. The document provides examples of materials used like fiberglass, sheetrock and rubber for insulation and isolation.
This document describes a bamboo whistle called the Bamboo Special. It has several key benefits: it is compatible with the iPhone 4, portable, lightweight, does not require electricity, and avoids issues with finding electrical outlets. The manufacturing process involves selecting bamboo, cutting and drilling it, decorating it, and takes about 2 hours at a cost of $80. The bamboo material makes the whistle stronger, more flexible, and louder sounding than plastic or some metals.
The Serenity Wall and Ceiling Panels are designed to provide excellent sound absorption whilst enhancing the décor of any room. Our Serenity Wall Panels provide the simple yet important function of absorbing sound across the entire frequency range, whether it’s in a commercial, hospitality, or educational setting, in fact in any area where excess reverberation is a problem. The Serenity can reduce sound by cutting down on the harsh echoes and reverberated sound reflecting off hard surfaces making it more tolerable and comfortable for everyone.
Please contact Moving Designs on 0845 6432198.
This document discusses Flaxwood, a new manmade tonewood material composed of polymer infused with spruce fiber. It provides several key advantages over traditional tonewoods, such as being impervious to temperature and humidity fluctuations and not being affected by restrictions of the Lacey Act. Guitars made of Flaxwood are produced through injection molding, giving them uniform and consistent parts and dimensions. While the production process drives up costs, hybrid models with composite necks joined to alder bodies provide a more affordable option at $999-1299. Flaxwood is being marketed and sold in 19 countries, though uptake has been slower in the US than Europe.
Woodcomfort floors feature a multilayer structure combining cork and wood veneer to provide beauty, comfort, and durability. The cork layer offers superior acoustic and thermal insulation properties, reducing noise transmission and maintaining a comfortable temperature. Cork is a renewable material that is sustainably harvested from cork oak trees and has unique insulating qualities that make it ideal for flooring applications. Woodcomfort floors offer benefits like noise reduction, increased comfort, and a warmer feel.
speaker thinnr than paper! PVDF piezo electric filmShubham Gupta
Polyvinylidene Fluoride PiezoelectricFilm (PVDF) is a relatively new class of piezo-electric device.PVDF material is a thin plastic polymersheet with its molecules aligned in auniform pattern. It has a electrically conductive coating deposited on each side of the sheet.
WOOD Week 11 Lecture 1 Tuesday andrea wheelerAndrea Wheeler
This document outlines the content for a week 11 lecture on wood as a construction material. It discusses the physical properties of wood, including its strength, moisture movement, and grain structure. It also covers the production of lumber from harvesting timber through sawing, seasoning, and grading. The lecture will examine wood composites, connections, uses in construction, and case studies. Students are assigned to research labs on the sustainability of wood, developments in timber connections, height limits of timber structures, and designing with new wood materials.
Timber refers to wood suitable for building or engineering purposes. It is used to make furniture, packaging, tools, toys and other wood products. Timber comes from the trunks of trees and is composed of heartwood, sapwood, and bark. Softwoods and hardwoods have different characteristics like weight, color, strength properties. For timber to be of good quality, it needs properties like being free from defects, uniform color, and clear ringing sound. Seasoning reduces the moisture content in wood to prevent warping. Preservation methods like painting, tarring and chemical treatment protect timber from fire, fungi and insect attacks. Common wood products include veneer, plywood and other composite wood materials.
1. Wood is a natural material composed mainly of cellulose that is used widely in building, tools, vehicles, and decorative objects. It is composed of fibers that transport water and provide mechanical strength.
2. There are various terms used to describe wood depending on its application, such as carpentry, timbering, joinery, and cabinetry. Knots will affect the properties of sawn wood.
3. The density, strength, and other properties of wood vary depending on factors like species, moisture content, and processing. Both hardwoods and softwoods have distinct characteristics and applications.
This presentation is all about timber products specifically fiberboards , particle board and compressed straw board.
in this ppt all the information haas been provided like from there manufacturing processes to there uses to there rates and size to the manufacturing companies . It is very helpful for architectural students. more importance is given on constructional details . Hope u like it :)
Similar to Elastopoli, Application driven material manufacturing and tailoring possibilities of the new material - Markku Nikkilä (8)
CF Martin & Co, Insight from the Director of Instrument Design - Tim TeelTonalInnovationCenter
Tim Teel has worked at Martin Guitar since 1986 and discusses alternative materials that can be used for guitar construction. Some options include high-pressure laminates made of domestic woods that provide acceptable tones at a lower cost than natural materials. Synthetic materials require different bracing than wood and may not always be better for the environment. For new materials to gain acceptance requires education of consumers on tone, perception of quality, price, and proper timing of new designs.
Tim Teel has worked at C.F. Martin & Co. since 1986 in research and development and has experience developing many of their guitar series. He discusses Martin Guitar's history of switching wood materials due to sustainability concerns and their development of synthetic and domestic wood alternatives. Teel notes that while alternative materials have different tonal properties than natural woods, combinations and bracing are important, and acceptance in the market requires education around price, perception and timing of new materials.
Tonal Innovation Center (TONIC) hosted the second annual International Musical Instruments Seminar in Joensuu, Finland on 14th September- 16th September 2011.
This document discusses a new material called natural fiber composites (NFC) that can be used for instrument building. NFC is made from natural fibers like cellulose and plastics. It has mechanical properties that are 40% better than traditional wood materials. NFC allows for complex designs that traditional woodworking cannot achieve, opening new possibilities for tone and structure while keeping costs low. Examples of acoustic guitars made from NFC showed excellent tonewood-like qualities including power, volume, sustain, and an even tone.
Tonal Innovation Center (TONIC) hosted the second annual International Musical Instruments Seminar in Joensuu, Finland on 14th September- 16th September 2011.
Tonal Innovation Center (TONIC) hosted the second annual International Musical Instruments Seminar in Joensuu, Finland on 14th September- 16th September 2011.
Tonal Innovation Center (TONIC) hosted the second annual International Musical Instruments Seminar in Joensuu, Finland on 14th September- 16th September 2011.
Music Industry Association CEO address on the UK market - Paul McManus TonalInnovationCenter
Tonal Innovation Center (TONIC) hosted the second annual International Musical Instruments Seminar in Joensuu, Finland on 14th September- 16th September 2011.
The document summarizes information about the global musical instrument market and related topics such as deforestation and climate change. It notes that while the musical instrument market was once considered "recession proof", the global economic downturn in 2008-2009 caused a significant 13.7% decline in sales. It also discusses concerns about deforestation reducing supplies of rare tonewoods used to make instruments and explores sustainable alternatives. The US represents the largest market at 40.5% of global sales but markets in India and China are growing. Deforestation is reducing forests worldwide which store carbon and harbor biodiversity.
Flaxwood Guitars, Perspective of a "new" player entering the market - Rick Ne...TonalInnovationCenter
Tonal Innovation Center (TONIC) hosted the second annual International Musical Instruments Seminar in Joensuu, Finland on 14th September- 16th September 2011.
Tonal Innovation Center (TONIC) hosted the second annual International Musical Instruments Seminar in Joensuu, Finland on 14th September- 16th September 2011.
Tonal Innovation Center (TONIC) hosted the second annual International Musical Instruments Seminar in Joensuu, Finland on 14th September- 16th September 2011.
This document discusses natural nanomaterials derived from biomass, including nanocelluloses and nanocomposites. It outlines processes for separating nanofibers and nanocrystals from cellulose sources and characterizing their properties. Examples are given of using nanocelluloses to produce reinforced composite materials, films, coatings, and medical prototypes. The document concludes that there is increasing interest in renewable nanomaterials and that biobased residues can be sources for nanocellulose with applications in various industries.
TFT update on current regulations and initiatives for the MI industry - Marin...TonalInnovationCenter
This document discusses responsible sourcing of tonewood and efforts to address deforestation. It summarizes that 13 million hectares of tropical forest are cleared annually, destroying habitats and impacting the climate and water systems. Every minute, an area the size of 20 football fields is lost. The Forest Trust (TFT) works with companies and communities to ensure products are sourced responsibly. The EU's Forest Law Enforcement, Governance and Trade (FLEGT) program and Timber Regulation aim to curb illegal logging by requiring importers to demonstrate legality and traceability of wood sources. Certification schemes like FSC help companies progress toward legal and sustainable sourcing.
Tonal Innovation Center (TONIC) hosted the second annual International Musical Instruments Seminar in Joensuu, Finland on 14th September- 16th September 2011.
Tonal Innovation Center (TONIC) hosted the second annual International Musical Instruments Seminar in Joensuu, Finland on 14th September- 16th September 2011.
Level 3 NCEA - NZ: A Nation In the Making 1872 - 1900 SML.pptHenry Hollis
The History of NZ 1870-1900.
Making of a Nation.
From the NZ Wars to Liberals,
Richard Seddon, George Grey,
Social Laboratory, New Zealand,
Confiscations, Kotahitanga, Kingitanga, Parliament, Suffrage, Repudiation, Economic Change, Agriculture, Gold Mining, Timber, Flax, Sheep, Dairying,
Information and Communication Technology in EducationMJDuyan
(𝐓𝐋𝐄 𝟏𝟎𝟎) (𝐋𝐞𝐬𝐬𝐨𝐧 2)-𝐏𝐫𝐞𝐥𝐢𝐦𝐬
𝐄𝐱𝐩𝐥𝐚𝐢𝐧 𝐭𝐡𝐞 𝐈𝐂𝐓 𝐢𝐧 𝐞𝐝𝐮𝐜𝐚𝐭𝐢𝐨𝐧:
Students will be able to explain the role and impact of Information and Communication Technology (ICT) in education. They will understand how ICT tools, such as computers, the internet, and educational software, enhance learning and teaching processes. By exploring various ICT applications, students will recognize how these technologies facilitate access to information, improve communication, support collaboration, and enable personalized learning experiences.
𝐃𝐢𝐬𝐜𝐮𝐬𝐬 𝐭𝐡𝐞 𝐫𝐞𝐥𝐢𝐚𝐛𝐥𝐞 𝐬𝐨𝐮𝐫𝐜𝐞𝐬 𝐨𝐧 𝐭𝐡𝐞 𝐢𝐧𝐭𝐞𝐫𝐧𝐞𝐭:
-Students will be able to discuss what constitutes reliable sources on the internet. They will learn to identify key characteristics of trustworthy information, such as credibility, accuracy, and authority. By examining different types of online sources, students will develop skills to evaluate the reliability of websites and content, ensuring they can distinguish between reputable information and misinformation.
Gender and Mental Health - Counselling and Family Therapy Applications and In...PsychoTech Services
A proprietary approach developed by bringing together the best of learning theories from Psychology, design principles from the world of visualization, and pedagogical methods from over a decade of training experience, that enables you to: Learn better, faster!
How to Setup Default Value for a Field in Odoo 17Celine George
In Odoo, we can set a default value for a field during the creation of a record for a model. We have many methods in odoo for setting a default value to the field.