Verification of a dynamic laboratory scale former

Laboratoriomittakaavainen formeri on välttämätön, jotta paperinvalmistusprosessin jäljitteleminen olisi mahdollista. Vaikka erilaisia formereita löytyykin paperiteollisuudesta, tilaa on kuitenkin laboratoriomittakaavaiselle paperinvalmistusmenetelmälle, joka sijoittuisipilottikoneen ja perinteisen laboratorioarkkimuotin välille. Formeri, jolla saadaan aikaiseksi oikean paperinvalmistuksen kaltaiset olosuhteet ja ilmiöt on kehitetty, ja sen toiminta on testattu Nalcon Papermaking Centreof Excellence:ssä Espoossa. Formeri on yhdistetty Nalcon lähestymisjärjetelmäsimulaattoriin ja simulaattorilla aikaansaadut hydro-kemialliset ilmiöt voidaan testata nyt myös arkeista. Laitteessa on perälaatikko ja viiraosa. Perälaatikosta massa virtaa viiralle, joka liikkuu eteenpäin hihnakuljettimen hihnojen päällä. Suihku-viira -suhdetta voidaan muuttaa joko muuttamalla virtausnopeutta tai viiran nopeutta tai säätämällä perälaatikon huuliaukkoa. Formerintoiminnan testaus osoitti, että se toimii teknisesti hyvin ja tulokset ovat toistettavia ja loogisia. Arkeissa kuidut ovat orientoituneet, formaatio ja vetolujuussuhde KS/PS riippuvat voimakkaasti suihku-viira -suhteesta, kuten oikeillakinpaperikoneilla.

PulpExpert-massa-analysaattorin arkinmuodostus

Laboratoriossa tutkittiin rainaussakeuden ja neliömassan vaikutusta formaatioon ja muiden paperin ominaisuuksien hajontoihin sakeusalueella 0,036 %- 0,067 % ja neliömassa-alueella 65 g/m2- 125 g/m2. Havaittiin, että rainaussakeudella oli vaikutusta vain mäntysellusta valmistettujen arkkien formaatioon. Neliömassan noustessa kaikista tutkituista massoista valmistettujen arkkien formaatiot huononivat. Pulseeraus tai alipaine vedenpoiston aikana ei parantanut Turbulence Pulse Sheet Former-laitteella valmistettujen kuumahierrearkkien formaatiota. Kahdella koelaitteella tehtiin sakeusajo, toistokoe ja vuorottelukoe. Laite A mittasi tiettyihin sakeuksiin valmistettujen massojen sakeudet tarkasti. Laitteen B sakeusmittauksessa havaittiin säännöllinen poikkeama. Toistokokeen tuloksista tarkasteltiin mitattujen arvojen hajontoja, laitteiden massanerotuskykyä ja arkkien formaatiota. Laite A teki silmämääräisesti tasaisempia arkkeja, mutta niiden formaatio oli huonompi. Laitteella A saavutettiin pienemmät näytepisteiden sisäiset hajonnat repäisylujuusmittauksessa ja laitteella B vaaleuden mittauksessa. Laite A erotteli massat paremmin vaaleusmittauksessa ja laite B ilmanläpäisevyyden mittauksessa. Vuorottelukokeessa havaittiin, ettei massojen nopea vuorottelu kasvata olennaisesti mittaustuloksien hajontoja.

Nestepakkauskartongin runkokerroksen rakenteen optimointi

Diplomityön tavoitteena oli optimoida KA4:n nestepakkauskartongin runkokerroksen massakoostumus ja rakenne kartonkikoneen uusinnan jälkeen. Työssä tutkittiin Natura 285 –laatua, jota käytetään yhden litran vetoisissa maitopurkeissa. Pääasiallisena tavoitteena oli lisätä CTMP:n osuutta ja vähentää mäntysellun osuutta rungossa siten, että kartongin laatu ei heikkene. Työn kirjallisuusosassa perehdyttiin nestepakkauskartongin kriittisiin ominaisuuksiin ja CTMP:n vaikutuksiin runkokerroksessa. Rainanmuodostusta ja kuituverkoston lujuuden syntymistä käsiteltiin omina kokonaisuuksinaan. CTMP:n freeness-tason huomattava vähentäminen kasvattaa kartongin z-lujuutta ja palstautumislujuutta merkittävästi. Samalla höyrynkulutus kuitenkin kasvaa ja kartongin jäykkyys laskee jonkin verran paksuuden vähenemisen seurauksena. CTMP:n freeness-tason alentaminen arvosta 420 ml CSF arvoon 380 ml CSF ei alenna bulkkia merkittävästi. CTMP:n määrän kasvattaminen yli 60 %:in keskikerroksessa alentaa palstautumislujuutta ja z-lujuutta merkittävästi. Runkokerroksen mäntysellun korvaaminen koivusellulla parantaa kartongin sileyttä merkittävästi vakiopaksuudessa. Runkokerroksen massakomponenttien jauhatuksen lisäämisestä huolimatta z-lujuus ja palstautumislujuus laskevat vastaavasti huomattavan paljon. Koivusellun käytöllä valmiin pakkauksen ominaisuudet eivät heikkene, mutta painatusominaisuudet paranevat. CTMP-laitoksen pääjauhinten uudella LE-terämallilla saavutetaan huomattava energian säästö vanhaan terämalliin verrattuna. Kuidun keskipituus laskee jonkin verran LE-terien ikääntyessä ja samalla kuitujen sitoutumiskyky heikkenee.

Pressforming of a tray from a pulp sheet

The aim of this thesis work was to verify the possibility to produce tray packages directly from pulp sheets using press forming techniques. The different existing raw materials of pulp, various sources of molded pulp and different methods of production of molded pulp were studied. Nine different raw materials which were used for experimental work were provided by Stora Enso mills, and Stora Enso Research Centre, Imatra, Finland. The laboratory tests were carried out using LUT Adjustable packaging line at Lappeenranta University of Technology. The results prove that long virgin fibres of pine pulp seems to have better formability with high moisture content compared to others. No significant improvements were noticed with conditioned samples, never the less far studies has to be done to find optimal conditions for production. The results indicated the possibility for making pressformed tray from two different pulp qualities (Sunila pulp and Enopine). The method could prove to be beneficiary as the production line could be shortened and investment in board machines could be avoided if the trays were pressed directly from pulp sheets. Also the labour costs would be reduced. However, there is much work to be done before the quality of a tray produced out of a pulp sheet is comparable to a tray produced out of tray board.

A support system for evaluating a suitable joining method in the production of sheet metal goods

This report illustrates a comparative study of various joining methods involved in sheet metal production. In this report it shows the selection of joining methods, which includes comparing the advantages and disadvantages of a method over the other ones and choosing the best method for joining. On the basis of various joining process from references, a table is generated containing set of criterion that helps in evaluation of various sheet metal joining processes and in selecting the most suitable process for a particular product. Three products are selected and a comprehensive study of the joining methods is analyzed with the help of various parameters. The table thus is the main part of the analysis process of this study and can be advanced with the beneficial results. It helps in a better and easy understanding and comparing the various methods, which provides the foundation of this study and analysis. The suitability of the joining method for various types of cases of different sheet metal products can be tested with the help of this table. The sections of the created table display the requirements of manufacturing. The important factor has been considered and given focus in the table, as how the usage of these parameters is important in percentages according to particular or individual case. The analysis of the methods can be extended or altered by changing the parameters according to the constraint. The use of this table is demonstrated by pertaining the cases from sheet metal production.

Development of Paperboard Forming Tools with a Focus on Intelligent Manufacturing

Tämä diplomityö käsittelee kartonginmuovaukseen käytettävien puristintyökalujen kehittämistä. Työntavoitteina oli kehittää työkalutekniikan suunnittelua ja valmistusta edullisemmaksi, nopeammaksi ja työkaluja toiminnoiltaan tehokkaammiksi. Työn tuli sisältää myös ohjeet työkalujen suunnittelemiseksi ja valmistamiseksi jatkoa ajatellen. Työn aikana selvitettiin mahdollisia työkalurakennevaihtoehtoja, valmistusmateriaaleja sekä niiden käsittelymenetelmiä ja lastuamista sekä sen tarjoamia mahdollisuuksia valmistusmenetelmänä. Työkalupari suunniteltiin modulaariseksi siten, että uusia työkaluja varten vain osa komponenteista täytyy valmistaa uudelleen, samalla työkalun osien lukumäärää pienennettiin merkittävästi. Valmistusmateriaaliksi valittiin hyvin lastuttava työkaluteräs ja sen koneistaminen tapahtui vaakakaraisessa koneistuskeskuksessa. Työn loppuvaiheessa työkalukokonaisuudelle tehtiin kustannuslaskelma jaoteltuna eri työvaiheille sekä komponenteittain. Työkalu asennettiin puristimeen ja sille suoritettiin käyttötestaus. Työn aikana karttuneen kokemuksen sekä koekäytön perusteella tehtiin jatkokehitysehdotuksia.

A novel procedure for establishing clinching parameters for high strength steel sheet

The building industry has a particular interest in using clinching as a joining method for frame constructions of light-frame housing. Normally many clinch joints are required in joining of frames.In order to maximise the strength of the complete assembly, each clinch joint must be as sound as possible. Experimental testing is the main means of optimising a particular clinch joint. This includes shear strength testing and visual observation of joint cross-sections. The manufacturers of clinching equipment normally perform such experimental trials. Finite element analysis can also be used to optimise the tool geometry and the process parameter, X, which represents the thickness of the base of the joint. However, such procedures require dedicated software, a skilled operator, and test specimens in order to verify the finite element model. In addition, when using current technology several hours' computing time may be necessary. The objective of the study was to develop a simple calculation procedure for rapidly establishing an optimum value for the parameter X for a given tool combination. It should be possible to use the procedure on a daily basis, without stringent demands on the skill of the operator or the equipment. It is also desirable that the procedure would significantly decrease thenumber of shear strength tests required for verification. The experimental workinvolved tests in order to obtain an understanding of the behaviour of the sheets during clinching. The most notable observation concerned the stage of the process in which the upper sheet was initially bent, after which the deformation mechanism changed to shearing and elongation. The amount of deformation was measured relative to the original location of the upper sheet, and characterised as the C-measure. By understanding in detail the behaviour of the upper sheet, it waspossible to estimate a bending line function for the surface of the upper sheet. A procedure was developed, which makes it possible to estimate the process parameter X for each tool combination with a fixed die. The procedure is based on equating the volume of material on the punch side with the volume of the die. Detailed information concerning the behaviour of material on the punch side is required, assuming that the volume of die does not change during the process. The procedure was applied to shear strength testing of a sample material. The sample material was continuously hot-dip zinc-coated high-strength constructional steel,with a nominal thickness of 1.0 mm. The minimum Rp0.2 proof stress was 637 N/mm2. Such material has not yet been used extensively in light-frame housing, and little has been published on clinching of the material. The performance of the material is therefore of particular interest. Companies that use clinching on a daily basis stand to gain the greatest benefit from the procedure. By understanding the behaviour of sheets in different cases, it is possible to use data at an early stage for adjusting and optimising the process. In particular, the functionality of common tools can be increased since it is possible to characterise the complete range of existing tools. The study increases and broadens the amount ofbasic information concerning the clinching process. New approaches and points of view are presented and used for generating new knowledge.

Origins of production errors and significance of employee empowerment in reducing production error amount in sheet metal fabricating industry

The market place of the twenty-first century will demand that manufacturing assumes a crucial role in a new competitive field. Two potential resources in the area of manufacturing are advanced manufacturing technology (AMT) and empowered employees. Surveys in Finland have shown the need to invest in the new AMT in the Finnish sheet metal industry in the 1990's. In this run the focus has been on hard technology and less attention is paid to the utilization of human resources. In manymanufacturing companies an appreciable portion of the profit within reach is wasted due to poor quality of planning and workmanship. The production flow production error distribution of the sheet metal part based constructions is inspectedin this thesis. The objective of the thesis is to analyze the origins of production errors in the production flow of sheet metal based constructions. Also the employee empowerment is investigated in theory and the meaning of the employee empowerment in reducing the overall production error amount is discussed in this thesis. This study is most relevant to the sheet metal part fabricating industrywhich produces sheet metal part based constructions for electronics and telecommunication industry. This study concentrates on the manufacturing function of a company and is based on a field study carried out in five Finnish case factories. In each studied case factory the most delicate work phases for production errors were detected. It can be assumed that most of the production errors are caused in manually operated work phases and in mass production work phases. However, no common theme in collected production error data for production error distribution in the production flow can be found. Most important finding was still that most of the production errors in each case factory studied belong to the 'human activity based errors-category'. This result indicates that most of the problemsin the production flow are related to employees or work organization. Development activities must therefore be focused to the development of employee skills orto the development of work organization. Employee empowerment gives the right tools and methods to achieve this.

Viirojen vedenpoistokyvyn ja markkeeraavuuden analysointi HSRT-laitteistolla

Tässä diplomityössä tutkittiin eri tyyppisten viirojen vedenpoisto-ominaisuuksia ja markkeeraavuutta HSRT-laitteistolla. Tarkoitus oli myös selvittää muodostuvan paperiarkin rakennetta ja HSRT-laitteiston soveltuvuutta viiravertailuun. Työn kirjallisuusosassa käsitellään märkäviiroja sekä niiden valmistamista, valintaa eri kriteerein, kulumista ja puhdistamista. Lisäksi käsitellään viirojen markkeeraavuutta ja viiraosan vedenpoistoa. Sekä vedenpoistokyvyn että markkeeraavuuden osalta tulokset olivat niin tasaiset eri suureiden suhteen, ettei etenkään sisäviirojen välillä saatu näkyviin selviä eroja. Markkeeraavuuden osalta laitteiston ominaisuutena näyttäisi olevan se, ettei sisäviiran puoleinen markkeeraus näy arkissa. Tästä syystä vertailut DPCJ-laitteen ja koepaperikoneen tuloksiin olivat mahdottomia. Sen sijaan ulkoviiran puolella markkeeraus oli havaittavissa useimmissa tapauksissa. Tutkimuksen perusteella vaikuttaa kuitenkin siltä, ettei HSR-Tester sovellu viirojen vedenpoistonkyvyn ja markkeeraavuuden vertailuun.

Designing of statically loaded sheet metal structures

The goal of this thesis is to give information to machine designers about how to design and size sheet metal structures and joints. Generally, the designing object is to lighten structures. To design structures that are light and can carry loads more effectively, designers have to be updated of new manufacturing techniques and new designing methods and criterions. With knowledge of this thesis, a designer can recognize objects and methods plus how and where it is possible to apply these new more effectively load carrying structures. The thesis gives answers to questions of corrosion and material planning, goes into joint types and manufacturing techniques of sheet metal structures. One of the main issues is to develop designers world of ideas to design right kind of products with new lasertechniques.

The modular forming press for paperboard packages

In this master’s thesis the structural and functional features of a forming tool are developed to meet the needs of modern packaging production for paperboard packaging are studied. The goal of the study is to develop a new type of machine for the manufacture of the paperboard package by pressing. In the structure of the developed forming press the possibility to modify the packaging as well as the requirements of industrial production, food hygiene and other operational matters are accounted for. The press has been sized based on the main dimensions of a single food-grade paperboard tray. In the LUT Packaging Laboratory the forming press is designed suitable for on-line operation. In addition, suggestions for further development of packaging line and equipment have been made based on the information gathered during this thesis study.

Welding of Sheet metal using Modified short arc MIG/MAG welding process

In this research work, the results of an investigation dealing with welding of sheet metals with diverse air gap using FastROOT modified short arc welding method and short circuit MAG welding processes have been presented. Welding runs were made under different conditions and, during each run, the different process parameters were continuously monitored. It was found that maximum welding speed and less HAZ are reached under specific welding conditions with FastROOT method with the emphasis on arc stability. Welding results show that modified short arc exhibits a higher electrode melting coefficient and with virtually spatter free droplet transition. By adjusting the short circuit duration the penetration can be controlled with only a small change in electrode deposition. Furthermore, by mixing pulsed MIG welding with modified arc welding the working envelope of the process is greatly extended allowing thicker material sections to be welded with improved weld bead aesthetics. FastROOT is a modified short arc welding process using mechanized or automated welding process based on dip transfer welding, characterized by controlled material deposition during the short circuit of the wire electrode to the workpiece.

Supply chain costs of a small board lot: sheet cutting and logistics

Succeeding in small board lot (0-20 tons) deliveries, is not always prosperous and failures as well as extra costs compared to standard costs arise. Failure deliveries from converting plants to customer locations tie a lot of unwanted and unexpected costs. Extra costs are handled as quality costs and more precise, internal failure costs. These costs revolve from unsuccessful truck payloads, redundant warehousing or unfavorable routing as examples. Quality costs are becoming more and more important factor in company’s financial decision making. Actual, realized truck payload correlates with the extra costs occurring, so filling the truck payload all get-out well is a key to lower the extra costs. Case company in this study is Corporation A, business segment Boards. Boards have outsourced half of their converting in order to gain better customer service via flexibility, lead time reductions and logistics efficiency improvements. Examination period of the study is first two quarters of year 2008 and deliveries examined are from converters to the customer locations. In Corporation A’s case, the total loss in failure deliveries is hundreds of thousands of Euros during the examination period. So, the logistics goal of getting the right product to the right place and right time for the least cost, does not completely realize.

Machine vision methods for process measurements in pulping

The papermaking industry has been continuously developing intelligent solutions to characterize the raw materials it uses, to control the manufacturing process in a robust way, and to guarantee the desired quality of the end product. Based on the much improved imaging techniques and image-based analysis methods, it has become possible to look inside the manufacturing pipeline and propose more effective alternatives to human expertise. This study is focused on the development of image analyses methods for the pulping process of papermaking. Pulping starts with wood disintegration and forming the fiber suspension that is subsequently bleached, mixed with additives and chemicals, and finally dried and shipped to the papermaking mills. At each stage of the process it is important to analyze the properties of the raw material to guarantee the product quality. In order to evaluate properties of fibers, the main component of the pulp suspension, a framework for fiber characterization based on microscopic images is proposed in this thesis as the first contribution. The framework allows computation of fiber length and curl index correlating well with the ground truth values. The bubble detection method, the second contribution, was developed in order to estimate the gas volume at the delignification stage of the pulping process based on high-resolution in-line imaging. The gas volume was estimated accurately and the solution enabled just-in-time process termination whereas the accurate estimation of bubble size categories still remained challenging. As the third contribution of the study, optical flow computation was studied and the methods were successfully applied to pulp flow velocity estimation based on double-exposed images. Finally, a framework for classifying dirt particles in dried pulp sheets, including the semisynthetic ground truth generation, feature selection, and performance comparison of the state-of-the-art classification techniques, was proposed as the fourth contribution. The framework was successfully tested on the semisynthetic and real-world pulp sheet images. These four contributions assist in developing an integrated factory-level vision-based process control.