50 resultados para Magnetically ordered material
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The development of load-bearing osseous implant with desired mechanical and surface properties in order to promote incorporation with bone and to eliminate risk of bone resorption and implant failure is a very challenging task. Bone formation and resoption processes depend on the mechanical environment. Certain stress/strain conditions are required to promote new bone growth and to prevent bone mass loss. Conventional metallic implants with high stiffness carry most of the load and the surrounding bone becomes virtually unloaded and inactive. Fibre-reinforced composites offer an interesting alternative to metallic implants, because their mechanical properties can be tailored to be equal to those of bone, by the careful selection of matrix polymer, type of fibres, fibre volume fraction, orientation and length. Successful load transfer at bone-implant interface requires proper fixation between the bone and implant. One promising method to promote fixation is to prepare implants with porous surface. Bone ingrowth into porous surface structure stabilises the system and improves clinical success of the implant. The experimental part of this work was focused on polymethyl methacrylate (PMMA) -based composites with dense load-bearing core and porous surface. Three-dimensionally randomly orientated chopped glass fibres were used to reinforce the composite. A method to fabricate those composites was developed by a solvent treatment technique and some characterisations concerning the functionality of the surface structure were made in vitro and in vivo. Scanning electron microscope observations revealed that the pore size and interconnective porous architecture of the surface layer of the fibre-reinforced composite (FRC) could be optimal for bone ingrowth. Microhardness measurements showed that the solvent treatment did not have an effect on the mechanical properties of the load-bearing core. A push-out test, using dental stone as a bone model material, revealed that short glass fibre-reinforced porous surface layer is strong enough to carry load. Unreacted monomers can cause the chemical necrosis of the tissue, but the levels of leachable resisidual monomers were considerably lower than those found in chemically cured fibre-reinforced dentures and in modified acrylic bone cements. Animal experiments proved that surface porous FRC implant can enhance fixation between bone and FRC. New bone ingrowth into the pores was detected and strong interlocking between bone and the implant was achieved.
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The transformation of a traditional pulp mill into an integrated forest biorefinery utilizing wood-derived biomass presents a promising opportunity for enterprise revival of the pulp and paper industry by offering new sources of revenue and significantly improved industry profitability. One proposed next generation process step for an integrated forest biorefinery is the extraction of hemicelluloses, allowing the co-production of pulp and ethanol or chemicals. The extraction of hemicelluloses, however, will likely have downstream effects on pulp quality. In the literature survey an overview of the integrated forest biorefinery and possible next generation technologies implementable in such facility were reviewed. Moreover, some hemicellulose extraction methods suitable for the co-production of pulp and hemicellulose products were looked into in more detail. Also, an overview on the significance of pulp’s hemicellulose content on papermaking properties of pulp fibers was made. In the literature it is stated that the hemicellulose content of pulp affects on many papermaking properties of pulp fibers, hornification and paper strength properties in particular. In the experimental part the goal was to investigate what effects alkaline hemicellulose extraction after bleaching has on the papermaking properties of birch Kraft pulp. It was discovered that tested pulps, normal and hemi-poor birch Kraft pulp, were different in many ways regarding to pulp properties. Differences were observed in both physical and chemical characteristics. Furthermore, clear distinctions were seen in tested paper properties, especially in strength properties, between the handsheets made from hemi-poor or normal birch Kraft pulp. Hemi-poor and normal birch Kraft pulps were also compared as a raw material of laboratory made copy paper. Based on this comparison, usage of hemi-poor birch pulp as the raw material of copy paper does not drastically deteriorate its quality.
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Silica based biomaterials, such as melt-derived bioactive glasses and sol-gel glasses, have been used for a long time in bone healing applications because of their ability to form hydroxyapatite and to stimulate stem cell proliferation and differentiation. In this study, bone marrow derived cells were cultured with bioactive glass and sol-gel silica, and seeded into porous polymer composite scaffolds that were then implanted femorally and subcutaneously in rats to monitor their migration inside host tissue. Bone marrow derived cells were also injected intraperitoneally. Transplanted cells migrated to various tissues inside the host, including the lung, liver spleen, thymus and bone marrow. The method of transplantation affected the time frame of cell migration, with intraperitoneal injection being the fastest and femoral implantation the slowest, but not the target tissues of migration. Transplanted donor cells had a limited lifetime in the host and were later eliminated from all tested tissues. Bioactive glass, however, affected the implanted cells negatively. When it was present in the scaffold no donor cells were found in any of the tested host tissues. Bioactive glass S53P4 was found to support both osteoblastic and osteoclastic phenotype of bone marrow derived cells, but it was resistant to the resorbing effect of osteoclastic bone marrow derived cells, showing that bioactive glass is rather dissolved through physicochemical reactions than resorbed by cells. Fast-dissolving silica sol gel in microparticulate form was found to increase collagen formation by bone marrow derived cells, while slow dissolving silica microparticles enhanced their proliferation, suggesting that the dissolution rate of silica controls the response of bone marrow derived cells.
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Novel biomaterials are needed to fill the demand of tailored bone substitutes required by an ever‐expanding array of surgical procedures and techniques. Wood, a natural fiber composite, modified with heat treatment to alter its composition, may provide a novel approach to the further development of hierarchically structured biomaterials. The suitability of wood as a model biomaterial as well as the effects of heat treatment on the osteoconductivity of wood was studied by placing untreated and heat‐treated (at 220 C , 200 degrees and 140 degrees for 2 h) birch implants (size 4 x 7mm) into drill cavities in the distal femur of rabbits. The follow‐up period was 4, 8 and 20 weeks in all in vivo experiments. The flexural properties of wood as well as dimensional changes and hydroxyl apatite formation on the surface of wood (untreated, 140 degrees C and 200 degrees C heat‐treated wood) were tested using 3‐point bending and compression tests and immersion in simulated body fluid. The effect of premeasurement grinding and the effect of heat treatment on the surface roughness and contour of wood were tested with contact stylus and non‐contact profilometry. The effects of heat treatment of wood on its interactions with biological fluids was assessed using two different test media and real human blood in liquid penetration tests. The results of the in vivo experiments showed implanted wood to be well tolerated, with no implants rejected due to foreign body reactions. Heat treatment had significant effects on the biocompatibility of wood, allowing host bone to grow into tight contact with the implant, with occasional bone ingrowth into the channels of the wood implant. The results of the liquid immersion experiments showed hydroxyl apatite formation only in the most extensively heat‐treated wood specimens, which supported the results of the in vivo experiments. Parallel conclusions could be drawn based on the results of the liquid penetration test where human blood had the most favorable interaction with the most extensively heat‐treated wood of the compared materials (untreated, 140 degrees C and 200 degrees C heat‐treated wood). The increasing biocompatibility was inferred to result mainly from changes in the chemical composition of wood induced by the heat treatment, namely the altered arrangement and concentrations of functional chemical groups. However, the influence of microscopic changes in the cell walls, surface roughness and contour cannot be totally excluded. The heat treatment was hypothesized to produce a functional change in the liquid distribution within wood, which could have biological relevance. It was concluded that the highly evolved hierarchical anatomy of wood could yield information for the future development of bulk bone substitutes according to the ideology of bioinspiration. Furthermore, the results of the biomechanical tests established that heat treatment alters various biologically relevant mechanical properties of wood, thus expanding the possibilities of wood as a model material, which could include e.g. scaffold applications, bulk bone applications and serving as a tool for both mechanical testing and for further development of synthetic fiber reinforced composites.
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This thesis is done as a part of project called FuncMama that is a project between Technical Research Centre of Finland (VTT), Oulu University (OY), Lappeenranta University of Technology (LUT) and Finnish industrial partners. Main goal of the project is to manufacture electric and mechanical components from mixed materials using laser sintering. Aim of this study was to create laser sintered pieces from ceramic material and monitor the sintering event by using spectrometer. Spectrometer is a device which is capable to record intensity of different wavelengths in relation with time. In this study the monitoring of laser sintering was captured with the equipment which consists of Ocean Optics spectrometer, optical fiber and optical lens (detector head). Light from the sintering process hit first to the lens system which guides the light in to the optical fibre. Optical fibre transmits the light from the sintering process to the spectrometer where wavelengths intensity level information is detected. The optical lens of the spectrometer was rigidly set and did not move along with the laser beam. Data which was collected with spectrometer from the laser sintering process was converted with Excel spreadsheet program for result’s evaluation. Laser equipment used was IPG Photonics pulse fibre laser. Laser parameters were kept mainly constant during experimental part and only sintering speed was changed. That way it was possible to find differences in the monitoring results without fear of too many parameters mixing together and affecting to the conclusions. Parts which were sintered had one layer and size of 5 x 5 mm. Material was CT2000 – tape manufactured by Heraeus which was later on post processed to powder. Monitoring of different sintering speeds was tested by using CT2000 reference powder. Moreover tests how different materials effect to the process monitoring were done by adding foreign powder Du Pont 951 which had suffered in re-grinding and which was more reactive than CT2000. By adding foreign material it simulates situation where two materials are accidently mixed together and it was studied if that can be seen with the spectrometer. It was concluded in this study that with the spectrometer it is possible to detect changes between different laser sintering speeds. When the sintering speed is lowered the intensity level of light is higher from the process. This is a result of higher temperature at the sintering spot and that can be noticed with the spectrometer. That indicates it could be possible to use spectrometer as a tool for process observation and support the idea of having system that can help setting up the process parameter window. Also important conclusion was how well the adding of foreign material could be seen with the spectrometer. When second material was added a significant intensity level raise could be noticed in that part where foreign material was mixed. That indicates it is possible to see if there are any variations in the material or if there are more materials mixed together. Spectrometric monitoring of laser sintering could be useful tool for process window observation and temperature controlling of the sintering process. For example if the process window for specific material is experimentally determined to get wanted properties and satisfying sintering speed. It is possible if the data is constantly recorded that the results can show faults in the part texture between layers. Changes between the monitoring data and the experimentally determined values can then indicate changes in the material being generated by material faults or by wrong process parameters. The results of this study show that spectrometer could be one possible tool for monitoring. But to get in that point where this all can be made possible much more researching is needed.
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Väitöskirjan tavoitteena on ollut rakentaa kokonaiskuva aiheesta Jugoslavialaisen sotataidollisen ajattelun kehittyminen toisen maailmansodan jälkeen. Tutkimuksessa ei ole rajoituttu ainoastaan kuvailemaan sotataidollisen ajattelun kehittyminen, vaan on pyritty selvittämään kehittymiseen vaikuttaneet tekijät ja vastaamaan kysymykseen, miksi näin on tapahtunut? Aiemmat länsimaiset tutkimukset ovat tarkastelleet jugoslavialaista sotataitoa tai maanpuolustusta vain jostain tietystä rajallisesta näkökulmasta, kuten esimerkiksi Jugoslavian kansanarmeijaa, asevoimien vaikutusta maan poliittiseen elämään tai sotilaallista doktriinia koskien. Sotataidon kehittymiseen vaikuttavat tekijät huomioivaa kokonaisesitystä ole tehty. Myös jugoslavialainen sotataidollinen ajattelu on jäänyt pääosin pimentoon. Jugoslavialainen maan sotataitoon kohdistunut tutkimus on ollut laajaa ja monipuolista, mutta sen käytettävyyteen osittain vaikuttaa marxilais-leniniläinen materialistis-dialektinen, historialliseen materialismiin perustuva tutkimusmenetelmä. Väitöskirjan päätutkimusaineiston ovat muodostaneet alkuperäislähteet, ensisijaisesti jugoslavialaiset ohjesäännöt, käsikirjat, oppaat ja oppikirjat. Muu lähteistö on koostunut lähinnä arkistoasiakirjoista ja muusta kirjallisuudesta. Tutkimusmenetelmä on ollut historiatieteellinen käsittäen muun muassa ulkoisen ja sisäisen lähdekritiikin harjoittamisen, tietojen varmistamisen mahdollisimman useasta toisistaan riippumattomasta lähteestä sekä pyrkimyksen rekonstruoida ristiriidaton kokonaiskuva tutkimuskohteesta. Eri lähteistä ja lähderyhmistä saatuja tietoja on vertailtu, analysoitu sekä yhdistetty kriittisesti. Lähteiden käytettävyyden, lähdearvon ja luotettavuuden arviointi ovat olleet merkittävässä roolissa, näistä kaikista tärkeimpänä luotettavuuden arviointi. Sisäisen ja ulkoisen lähdekritiikin keinoin on pyritty luomaan oma ristiriidaton tulkinta kokonaisuudesta, jugoslavialaisen sotataidollisen ajattelun kehittymisestä toisen maailmansodan jälkeen. Tutkimuksessa on pitäydytty niin pitkälle kuin mahdollista jugoslavialaisen sotataidon alkuperäisessä terminologiassa. Jugoslavialaisia termejä ei ole muokattu vastaamaan paremmin esimerkiksi tällä hetkellä länsimaisessa sotataidossa käytettyjä käsitteitä. Väitöskirjan rakenne on temaattinen. Läpi koko tutkittavan ajanjakson jugoslavialaisen sotataidollisen ajattelun kehittymisessä on tunnistettavissa samat määräävät tekijät: historialliset taustatekijät, sotilaallinen uhka, sotilaallinen doktriini, lakiperusteet, kommunistiliiton ohjaus ja asevoimien sekä yhteiskunnan valmiuden kehittyminen. Jugoslaviassa puhuttiin aseelliseen kamppailuun vaikuttavista sodankäynnin faktoreista, joita olivat yhteiskunnalliset tekijät, materiaalis-tekniset tekijät ja sotilaalliset tekijät. Kaikista tärkeimpänä tekijänä pidettiin kuitenkin ihmistä itseään, vaikka ihmisen merkitys välillä tuntuikin hukkuvan ”moraalis-poliittiset tekijät”-sanahirviön alle. Tutkimuskysymyksiin on vastattu sotataitoon vaikuttaneiden edellä mainittujen tekijöiden kautta. Kuhunkin muutostekijään liittyvä kehitys on kuvattu kronologisena esityksenä. Kansan vapautussodassa vuosina 1941–1945 perustettujen partisaaniyksiköiden muodostamisessa sekä niiden toimintamenetelmissä on havaittavissa runsaasti yhtymäkohtia 1700- ja 1800-luvun hajdukkijoukkojen sekä 1800-luvun lopun ja 1900-luvun alun četnikkijoukkojen vastaaviin periaatteisiin. Samankaltaisuuksia ilmenee 1950-luvulta alkaen alueellisen puolustuksen joukkojen ja partisaaniyksiköiden toimintamenetelmien yhteydessä väliaikaisesti menetetyllä alueella toimittaessa. Kansan tukeen, karismaattisiin johtajiin ja yllätyselementtiin perustuva sissitoiminta on perinteistä eteläslaavilaista sotataitoa. Sodanjälkeinen jugoslavialainen sotataito oli jatkumoa eteläslaavien vuosisatoja vanhalle sotataidolliselle perinteelle, vaikka sitä ei julkisesti Jugoslaviassa muutamia poikkeuksia lukuun ottamatta myönnettykään. Jugoslavian sotilaallinen doktriini oli luotu kaikista suunnista kohdistuvia hyökkäyksiä vastaan, mutta sotilaallisen uhkan painotukset vaihtelivat usein, jopa vain muutaman vuoden välein. Tämä ei johtunut päättämättömyydestä eikä pelkästään koetun uhkan suunnan vaihtumisesta. Painottamalla sisäisen ja ulkoisen uhkan jatkuvuutta sekä uhkan suunnan vaihtelua pyrittiin pitämään maanpuolustuspiirit valppaina ja kansalaiset aktiivisina. Tällä tavalla myös perusteltiin maanpuolustuksen korkeita kustannuksia ja ennen kaikkea pyrittiin lisäämään maan sisäistä veljeyttä ja yhtenäisyyttä. On ilmeistä, että sekä lännestä että idästä kohdistui Jugoslavian suuntaan suurta poliittista ja sotilaallista intressiä kylmän sodan vuosina 1945–1990, mutta suoran sotilaallisen uhkan aukoton todistaminen olisi kuitenkin hankalaa. Oleellista onkin jugoslavialaisten oma käsitys maataan vastaan kohdistuneesta sotilaallisesta uhkasta. Sisäisen uhkan vaikutus alkoi kasvaa 1970-luvun alkupuolelta lähtien ja se johti lopulta 1980-luvulla alueellisen puolustuksen joukkojen esikuntien lakkauttamiseen ja taisteluvälineiden hajavarastointijärjestelmän purkamiseen. Yhteiskunnallisista tekijöistä merkittävimpinä sotataitoon ja sotataidolliseen ajatteluun vaikuttaneina osina olivat lait ja Jugoslavian kommunistiliitto. Perustuslakiin ja lakiin kansallisesta puolustuksesta sekä kommunistiliiton päätöslauselmiin sisällytetyt vaatimukset sotataidon kehittymiselle kuitenkin vain toistivat sotilaallisessa doktriinissa määritettyjä suuntaviivoja sekä määräyksiä. Maanpuolustukseen liittyneiden määräysten ja ohjeiden hyväksymiselle laillisen järjestyksen mukaisesti annettiin kuitenkin erittäin suuri arvo. Niiden toimeenpanon leviäminen maanlaajuisesti varmistettiin puolueen päätöksillä velvoittamalla muun muassa kommunistiliiton paikallisorganisaatiot, puoluesolut asevoimien sisällä sekä kaikki liittovaltion hallintotasot tekemään kaikkensa yleisen kansanpuolustuksen ja sitä ilmentävän sotataidon toteutumisen eteen. Materiaalis-teknisen tekijän kokonaisuus sisälsi aseet ja varusteet sekä niihin liittyviä muita seikkoja, kuten yhteiskunnan teollisuuden kehittymisen asteen sekä kyvyn suojautua vihollisen taisteluvälineitä vastaan ja luoda vihollisen aseita vastaan tehokkaampi vasta-ase. Siihen luettiin myös yksilöiden, taktisten ja yhdistettyjen taktisten yksiköiden sekä koko kansan koulutus aseiden ja varusteiden tarkoituksenmukaiseen käyttöön. Vaikka jugoslavialainen aseteollisuus kehittyi tutkimusperiodin aikana voimakkaasti, joutui maa taloudellisten resurssiensa rajallisuuden ja mahdollisen vihollishyökkäyksen ylivoimaisuuden havaittuaan toteamaan, että maanpuolustuksen ongelmia ei voida ratkaista materiaalin ja tekniikan määrällä tai laadulla. Ratkaisun oli löydyttävä sotilaallisista tekijöistä ja varsinkin sotataidosta. Sotilaalliset tekijät ja prosessit olivat jugoslavialaisen sotataidon ja sotataidollisen ajattelun kehittymisen kannalta tärkein muutostekijä. Sotilaallisten tekijöiden ytimen muodosti sotataito, joka Jugoslaviassa koostui teoriasta ja käytännöstä. Tämä jako koski sotataidon kolmea tasoa: strategiaa, operatiikkaa ja taktiikkaa. Sotataitoon kuuluvina osina pidettiin muun muassa taisteluvalmiutta, liikekannallepanovalmiutta, yhteiskunnallis-poliittisten yhteisöjen aseetonta vastarintaa, aseellisen kamppailun operatiivista ja taktista tasoa, materiaalista ja teknistä varustamista, sotatalouden valmistelujen organisointia sekä yhteiskunnallisia palveluja poikkeusoloissa. Osa näistä kuului edellä mainittuihin yhteiskunnallisiin tai materiaalis-teknisiin tekijöihin. Jugoslavialainen sotataito onkin nähtävä matriisinomaisena kokonaisuutena, jossa sotataidon kolmeen toiminnalliseen tasoon, strategiaan, operatiikkaan ja taktiikkaan vaikuttivat historialliset taustatekijät, sotilaallinen uhka, yhteiskunnalliset tekijät ja materiaalis-tekniset tekijät. Jugoslavialaisen sotataidon kokonaisuuteen kuului myös se, että mainitut muutostekijät vaikuttivat vielä toisiinsa. Lopputuloksena näin kokonaisvaltaisesta näkemyksestä sotataitoon ja sotataidolliseen ajatteluun Jugoslavia kykeni luomaan poikkeuksellisen tehokkaana pidetyn puolustusratkaisun, jossa koko yhteiskunnan kaikki resurssit pystyttiin suuntaamaan hyökkäyksen torjumiseen ja maahan tunkeutuneiden pois ajamiseen. Aiempi tutkimus on nähnyt jugoslavialaisen sotataidon kehittymisen keskeisimpänä vaikuttimena ja murroskohtana Varsovan liiton joukkojen toimeenpaneman Tšekkoslovakian miehityksen ja siitä seuranneen koetun uhkan merkittävän voimistumisen. Yleisen kansanpuolustuksen doktriiniin liittyvä taustatutkimus, teorianmuodostus ja doktriinin käyttöönotto tapahtuivat kuitenkin jo 1950-luvulla. Tšekkoslovakian miehitys toimi vain muutoksen toimeenpanoa vauhdittavana tekijänä. Jugoslavialaiset korostivat, että jugoslavialaisessa yhteiskunnassa keskeisessä asemassa ollut yhteisjohtoisuuden periaate ulottui myös maanpuolustukseen ja sotataitoon. Tutkimusaineistoon perehtyminen kuitenkin osoitti, että yleisen kansanpuolustuksen kokonaisuutta kuvaavat oppikirjat, laeissa asetetut määräykset ja Jugoslavian kommunistiliiton julkaisemat vaatimukset eivät olleet jalkautuneet sotataidon teoriaan tai käytäntöön operatiivisella tai taktisella tasolla. Strategisella tasolla yhteisjohtoisuus esiintyi näkyvämmin vain sotilaallisen konseptin ja strategian yhteydessä. Sotilaallisen doktriinin osalta yhteisjohtoisuus ilmeni lähinnä kahdessa asiassa. Alueellisen puolustuksen yksiköiden varustamisvelvoite oli asetettu siviilihallinnon eri tasojen vastuulle. Alueellisen puolustuksen esikunnat ja komentajat olivat vastuussa yleisen kansanpuolustuksen ja yhteiskunnallisen itsesuojelun komiteoille. Siviilihallinnon organisaatioiden kyky varustaa alueellisen puolustuksen yksiköt osoittautui kuitenkin heikoksi. Alueellisen puolustuksen esikunnatkin toimivat upseereiden johtamina sotilaallisina johtoportaina, ja yleisen kansanpuolustuksen ja yhteiskunnallisen itsesuojelun komiteoiden toiminta komentajien ja esikuntien suuntaan rajoittui vain nimelliseen ohjaukseen. Yhteisjohtoisuus osoittautuikin tutkimuksen kuluessa piirteeksi, joka julkisesta retoriikasta huolimatta ei toteutunut jugoslavialaisessa sotataidon praktiikassa. Jugoslavialaisen sotataidollisen ajattelun kehittymisen kaari käynnistyi partisaanisodasta ja päätyi alueelliseen puolustusjärjestelmään. Kansakunta ja sen useat eri kansallisuudet onnistuivat luomaan tieteelliseen ja tutkittuun tietoon perustuvan välineen, sotataidon teorian ja käytännön, joka suojeli maata yli puolen vuosisadan ajan. Yleinen kansanpuolustus sekä jugoslavialainen sotataito ovat toisiensa synonyymejä, seurauksia ja synnyttäjiä. Puolustusratkaisu lähti omista kansallisista lähtökohdista, siihen sulautettiin valikoiden ja jalostettuna hyviksi sekä menestyksekkäiksi koettuja ulkomaisia elementtejä sekä vaikutteita. Sitä perusteltiin monipuolisilla poliittisilla, ideologisilla, teoreettisilla, historiallisilla sekä nykyaikaisilla sotataidollisilla argumenteilla, mutta kaikesta tästä huolimatta sen ydin oli omintakeinen jugoslavialainen sotataidollinen ajattelu.
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This thesis focuses on tissue inhibitor of metalloproteinases 4 (TIMP4) which is the newest member of a small gene and protein family of four closely related endogenous inhibitors of extracellular matrix (ECM) degrading enzymes. Existing data on TIMP4 suggested that it exhibits a more restricted expression pattern than the other TIMPs with high expression levels in heart, brain, ovary and skeletal muscle. These observations and the fact that the ECM is of special importance to provide the cardiovascular system with structural strength combined with elasticity and distensibility, prompted the present molecular biologic investigation on TIMP4. In the first part of the study the murine Timp4 gene was cloned and characterized in detail. The structure of murine Timp4 genomic locus resembles that in other species and of the other Timps. The highest Timp4 expression was detected in heart, ovary and brain. As the expression pattern of Timp4 gives only limited information about its role in physiology and pathology, Timp4 knockout mice were generated next. The analysis of Timp4 knockout mice revealed that Timp4 deficiency has no obvious effect on the development, growth or fertility of mice. Therefore, Timp4 deficient mice were challenged using available cardiovascular models, i.e. experimental cardiac pressure overload and myocardial infarction. In the former model, Timp4 deficiency was found to be compensated by Timp2 overexpression, whereas in the myocardial infarct model, Timp4 deficiency resulted in increased mortality due to increased susceptibility for cardiac rupture. In the wound healing model, Timp4 deficiency was shown to result in transient retardation of re-epithelialization of cutaneous wounds. Melanoma tumor growth was similar in Timp4 deficient and control mice. Despite of this, lung metastasis of melanoma cells was significantly increased in Timp4 null mice. In an attempt to translate the current findings to patient material, TIMP4 expression was studied in human specimens representing different inflammatory cardiovascular pathologies, i.e. giant cell arteritis, atherosclerotic coronary arteries and heart allografts exhibiting signs of chronic rejection. The results showed that cardiovascular expression of TIMP4 is elevated particularly in areas exhibiting inflammation. The results of the present studies suggest that TIMP4 has a special role in the regulation of tissue repair processes in the heart, and also in healing wounds and metastases. Furthermore, evidence is provided suggesting the usefulness of TIMP4 as a novel systemic marker for vascular inflammation.
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The Repair of segmental defects in load-bearing long bones is a challenging task because of the diversity of the load affecting the area; axial, bending, shearing and torsional forces all come together to test the stability/integrity of the bone. The natural biomechanical requirements for bone restorative materials include strength to withstand heavy loads, and adaptivity to conform into a biological environment without disturbing or damaging it. Fiber-reinforced composite (FRC) materials have shown promise, as metals and ceramics have been too rigid, and polymers alone are lacking in strength which is needed for restoration. The versatility of the fiber-reinforced composites also allows tailoring of the composite to meet the multitude of bone properties in the skeleton. The attachment and incorporation of a bone substitute to bone has been advanced by different surface modification methods. Most often this is achieved by the creation of surface texture, which allows bone growth, onto the substitute, creating a mechanical interlocking. Another method is to alter the chemical properties of the surface to create bonding with the bone – for example with a hydroxyapatite (HA) or a bioactive glass (BG) coating. A novel fiber-reinforced composite implant material with a porous surface was developed for bone substitution purposes in load-bearing applications. The material’s biomechanical properties were tailored with unidirectional fiber reinforcement to match the strength of cortical bone. To advance bone growth onto the material, an optimal surface porosity was created by a dissolution process, and an addition of bioactive glass to the material was explored. The effects of dissolution and orientation of the fiber reinforcement were also evaluated for bone-bonding purposes. The Biological response to the implant material was evaluated in a cell culture study to assure the safety of the materials combined. To test the material’s properties in a clinical setting, an animal model was used. A critical-size bone defect in a rabbit’s tibia was used to test the material in a load-bearing application, with short- and long-term follow-up, and a histological evaluation of the incorporation to the host bone. The biomechanical results of the study showed that the material is durable and the tailoring of the properties can be reproduced reliably. The Biological response - ex vivo - to the created surface structure favours the attachment and growth of bone cells, with the additional benefit of bioactive glass appearing on the surface. No toxic reactions to possible agents leaching from the material could be detected in the cell culture study when compared to a nontoxic control material. The mechanical interlocking was enhanced - as expected - with the porosity, whereas the reinforcing fibers protruding from the surface of the implant gave additional strength when tested in a bone-bonding model. Animal experiments verified that the material is capable of withstanding load-bearing conditions in prolonged use without breaking of the material or creating stress shielding effects to the host bone. A Histological examination verified the enhanced incorporation to host bone with an abundance of bone growth onto and over the material. This was achieved with minimal tissue reactions to a foreign body. An FRC implant with surface porosity displays potential in the field of reconstructive surgery, especially regarding large bone defects with high demands on strength and shape retention in load-bearing areas or flat bones such as facial / cranial bones. The benefits of modifying the strength of the material and adjusting the surface properties with fiber reinforcement and bone-bonding additives to meet the requirements of different bone qualities are still to be fully discovered.
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Julkaisumaa: 530 AN ANT Alankomaiden Antillit
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It is known already from 1970´s that laser beam is suitable for processing paper materials. In this thesis, term paper materials mean all wood-fibre based materials, like dried pulp, copy paper, newspaper, cardboard, corrugated board, tissue paper etc. Accordingly, laser processing in this thesis means all laser treatments resulting material removal, like cutting, partial cutting, marking, creasing, perforation etc. that can be used to process paper materials. Laser technology provides many advantages for processing of paper materials: non-contact method, freedom of processing geometry, reliable technology for non-stop production etc. Especially packaging industry is very promising area for laser processing applications. However, there are only few industrial laser processing applications worldwide even in beginning of 2010´s. One reason for small-scale use of lasers in paper material manufacturing is that there is a shortage of published research and scientific articles. Another problem, restraining the use of laser for processing of paper materials, is colouration of paper material i.e. the yellowish and/or greyish colour of cut edge appearing during cutting or after cutting. These are the main reasons for selecting the topic of this thesis to concern characterization of interaction of laser beam and paper materials. This study was carried out in Laboratory of Laser Processing at Lappeenranta University of Technology (Finland). Laser equipment used in this study was TRUMPF TLF 2700 carbon dioxide laser that produces a beam with wavelength of 10.6 μm with power range of 190-2500 W (laser power on work piece). Study of laser beam and paper material interaction was carried out by treating dried kraft pulp (grammage of 67 g m-2) with different laser power levels, focal plane postion settings and interaction times. Interaction between laser beam and dried kraft pulp was detected with different monitoring devices, i.e. spectrometer, pyrometer and active illumination imaging system. This way it was possible to create an input and output parameter diagram and to study the effects of input and output parameters in this thesis. When interaction phenomena are understood also process development can be carried out and even new innovations developed. Fulfilling the lack of information on interaction phenomena can assist in the way of lasers for wider use of technology in paper making and converting industry. It was concluded in this thesis that interaction of laser beam and paper material has two mechanisms that are dependent on focal plane position range. Assumed interaction mechanism B appears in range of average focal plane position of 3.4 mm and 2.4 mm and assumed interaction mechanism A in range of average focal plane position of 0.4 mm and -0.6 mm both in used experimental set up. Focal plane position 1.4 mm represents midzone of these two mechanisms. Holes during laser beam and paper material interaction are formed gradually: first small hole is formed to interaction area in the centre of laser beam cross-section and after that, as function of interaction time, hole expands, until interaction between laser beam and dried kraft pulp is ended. By the image analysis it can be seen that in beginning of laser beam and dried kraft pulp material interaction small holes off very good quality are formed. It is obvious that black colour and heat affected zone appear as function of interaction time. This reveals that there still are different interaction phases within interaction mechanisms A and B. These interaction phases appear as function of time and also as function of peak intensity of laser beam. Limit peak intensity is the value that divides interaction mechanism A and B from one-phase interaction into dual-phase interaction. So all peak intensity values under limit peak intensity belong to MAOM (interaction mechanism A one-phase mode) or to MBOM (interaction mechanism B onephase mode) and values over that belong to MADM (interaction mechanism A dual-phase mode) or to MBDM (interaction mechanism B dual-phase mode). Decomposition process of cellulose is evolution of hydrocarbons when temperature is between 380- 500°C. This means that long cellulose molecule is split into smaller volatile hydrocarbons in this temperature range. As temperature increases, decomposition process of cellulose molecule changes. In range of 700-900°C, cellulose molecule is mainly decomposed into H2 gas; this is why this range is called evolution of hydrogen. Interaction in this range starts (as in range of MAOM and MBOM), when a small good quality hole is formed. This is due to “direct evaporation” of pulp via decomposition process of evolution of hydrogen. And this can be seen can be seen in spectrometer as high intensity peak of yellow light (in range of 588-589 nm) which refers to temperature of ~1750ºC. Pyrometer does not detect this high intensity peak since it is not able to detect physical phase change from solid kraft pulp to gaseous compounds. As interaction time between laser beam and dried kraft pulp continues, hypothesis is that three auto ignition processes occurs. Auto ignition of substance is the lowest temperature in which it will spontaneously ignite in a normal atmosphere without an external source of ignition, such as a flame or spark. Three auto ignition processes appears in range of MADM and MBDM, namely: 1. temperature of auto ignition of hydrogen atom (H2) is 500ºC, 2. temperature of auto ignition of carbon monoxide molecule (CO) is 609ºC and 3. temperature of auto ignition of carbon atom (C) is 700ºC. These three auto ignition processes leads to formation of plasma plume which has strong emission of radiation in range of visible light. Formation of this plasma plume can be seen as increase of intensity in wavelength range of ~475-652 nm. Pyrometer shows maximum temperature just after this ignition. This plasma plume is assumed to scatter laser beam so that it interacts with larger area of dried kraft pulp than what is actual area of beam cross-section. This assumed scattering reduces also peak intensity. So result shows that assumably scattered light with low peak intensity is interacting with large area of hole edges and due to low peak intensity this interaction happens in low temperature. So interaction between laser beam and dried kraft pulp turns from evolution of hydrogen to evolution of hydrocarbons. This leads to black colour of hole edges.
Resumo:
Electrochemical double-layer supercapacitors have an intermediate position between rechargeable batteries, which can store high amounts of energy, and dielectric capacitors, which have high output power. Supercapacitors are widely suggested to be used in automobiles (recuperation during braking, facilitate engine starting, electric stabilization of the system), industry (forklifts, elevators), hybrid off-road machinery and also in consumer electronics. Supercapacitor electrodes require highly porous material. Typically, activated carbon is used. Specific surface area of activated carbon is approximately 1000 m2 per gram. Carbon nanotubes represent one of prospective materials. According to numerous studies this material allows to improve the properties of supercapacitors. The task of this Master‘s Thesis was to test multiwalled carbon nanotubes and become confident with the testing methods.
Resumo:
This research report illustrates and examines new operation models for decreasing fixed costs and transforming them into variable costs in the field of paper industry. The report illustrates two cases – a new operation model for material logistics in maintenance and an examination of forklift truck fleet outsourcing solutions. Conventional material logistics in maintenance operation is illustrated and some problems related to conventional operation are identified. A new operation model that solves some of these problems is presented including descriptions of procurement and service contracts and sources of added value. Forklift truck fleet outsourcing solutions are examined by illustrating the responsibilities of a host company and a service provider both before and after outsourcing. The customer buys outsourcing services in order to improve its investment productivity. The mechanism of how these services affect the customer company’s investment productivity is illustrated.
Resumo:
This thesis is devoted to understanding and improving technologically important III-V compound semiconductor (e.g. GaAs, InAs, and InSb) surfaces and interfaces for devices. The surfaces and interfaces of crystalline III-V materials have a crucial role in the operation of field-effect-transistors (FET) and highefficiency solar-cells, for instance. However, the surfaces are also the most defective part of the semiconductor material and it is essential to decrease the amount of harmful surface or interface defects for the next-generation III-V semiconductor device applications. Any improvement in the crystal ordering at the semiconductor surface reduces the amount of defects and increases the material homogeneity. This is becoming more and more important when the semiconductor device structures decrease to atomic-scale dimensions. Toward that target, the effects of different adsorbates (i.e., Sn, In, and O) on the III-V surface structures and properties have been investigated in this work. Furthermore, novel thin-films have been synthesized, which show beneficial properties regarding the passivation of the reactive III-V surfaces. The work comprises ultra-high-vacuum (UHV) environment for the controlled fabrication of atomically ordered III-V(100) surfaces. The surface sensitive experimental methods [low energy electron diffraction (LEED), scanning tunneling microscopy/spectroscopy (STM/STS), and synchrotron radiation photoelectron spectroscopy (SRPES)] and computational density-functionaltheory (DFT) calculations are utilized for elucidating the atomic and electronic properties of the crucial III-V surfaces. The basic research results are also transferred to actual device tests by fabricating metal-oxide-semiconductor capacitors and utilizing the interface sensitive measurement techniques [capacitance voltage (CV) profiling, and photoluminescence (PL) spectroscopy] for the characterization. This part of the thesis includes the instrumentation of home-made UHV-compatible atomic-layer-deposition (ALD) reactor for growing good quality insulator layers. The results of this thesis elucidate the atomic structures of technologically promising Sn- and In-stabilized III-V compound semiconductor surfaces. It is shown that the Sn adsorbate induces an atomic structure with (1×2)/(1×4) surface symmetry which is characterized by Sn-group III dimers. Furthermore, the stability of peculiar ζa structure is demonstrated for the GaAs(100)-In surface. The beneficial effects of these surface structures regarding the crucial III-V oxide interface are demonstrated. Namely, it is found that it is possible to passivate the III-V surface by a careful atomic-scale engineering of the III-V surface prior to the gate-dielectric deposition. The thin (1×2)/(1×4)-Sn layer is found to catalyze the removal of harmful amorphous III-V oxides. Also, novel crystalline III-V-oxide structures are synthesized and it is shown that these structures improve the device characteristics. The finding of crystalline oxide structures is exploited by solving the atomic structure of InSb(100)(1×2) and elucidating the electronic structure of oxidized InSb(100) for the first time.
