Search Results - "Mansikkamaki, P."

The conversion from cellulose I to cellulose II in NaOH mercerization performed in alcohol–water systems: An X-ray powder diffraction study by Mansikkamäki, Paavo, Lahtinen, Manu, Rissanen, Kari

“…The slurry-mercerization (SM) processes in 2-propanol–water and 2-propanol–ethanol–water and wet-mass-mercerization (WMM) process in ethanol–water solvents are…”
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Molded Substrates for Inkjet Printed Modules by Miettinen, J., Kaija, K., Mantysalo, M., Mansikkamaki, P., Kuchiki, M., Tsubouchi, M., Ronkka, R., Hashizume, K., Kamigori, A.

“…Ever increasing demand for high-performance, miniaturized, low-cost, and more environmentally conscious targets set high requirements for electronics packaging…”
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Structural Changes of Cellulose Crystallites Induced by Mercerisation in Different Solvent Systems; Determined by Powder X-ray Diffraction Method by Mansikkamäki, Paavo, Lahtinen, Manu, Rissanen, Kari

“…The completeness of mercerisation can be evaluated by investigating the changes in the crystalline regions of cellulose from cellulose I (C-I) to cellulose II…”
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3D integration of electronics and mechanics by Peltola, T., Mansikkamaki, P., Ristolainen, E.O.

“…Nowadays, the design is one of the key features for all consumer products. All the novel functions must be available inside fashionable covers. However, the…”
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Effects of 3D shapes in PWB design by Peltola, T., Mansikkamaki, P., Ristolainen, E.O.

“…Nowadays the outlook of any device can be a more important issue than the technical features inside it. Inevitably all these new and interesting features must…”
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Analysis of mechanical performance of silver inkjet-printed structures by Caglar, U., Kimmo Kaija, Mansikkamaki, P.

“…We report the mechanical performance of the structure of sintered silver ink used in inkjet printing, having a particle size of 3-7 nm. Tensile adhesion…”
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Capability of inkjet technology in electronics manufacturing by Mantysalo, M., Pekkanen, V., Kaija, K., Niittynen, J., Koskinen, S., Halonen, E., Mansikkamaki, P., Hameenoja, O.

“…The past decade has seen a growing interest in additive manufacturing and printable electronics. The main markets are expected to be among low-cost mass…”
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Optimised Curing of Silver Ink Jet Based Printed Traces by Radivojevic, Z, Andersson, K, Hashizume, K, Heino, M, Mantysalo, M, Mansikkamaki, P, Matsuba, Y, Terada, N

“…Dans Proceedings of 12th International Workshop on Thermal investigations of ICs - THERMINIC 2006, Nice : France (2006) Manufacturing electronic devices by…”
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Application of Thin-Film RCLG Model for the Modeling of Inkjet Printed Microstrip Lines by Lilja, J., Makinen, R., Pynttari, V., Mansikkamaki, P., Kivikoski, M.

“…Conductor thickness arising from printable electronics manufacturing technology is typically of the order of a skin depth in the frequency range from the upper…”
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Significance of Conductivity and Thickness of Thin Inkjet Printed Microstrip Lines by Pynttari, V., Makinen, R., Lilja, J., Pekkanen, V., Mansikkamaki, P., Kivikoski, M.

“…The effect of conductor loss of very thin lossy printed silver nano-particle traces manufactured using the printable electronics technology is studied up to 10…”
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Application of wide-band material parameter extraction techniques to printable electronics characterization by Sillanpaa, H., Lilja, J., Makinen, R., Ostman, K., Palukuru, V., Virtanen, J., Pynttari, V., Kanerva, T., Hagberg, J., Lepisto, T., Jantunen, H., Mansikkamaki, P.

“…Material characterization is an important part of printable electronics design, since material properties depend strongly on the manufacturing process. This…”
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Wide-band characterization of printable electronics materials: the effect of conductor loss and internal inductance on relative permittivity by Lilja, J., Sillanpaa, H., Makinen, R., Palukuru, V., Ostman, K., Hagberg, J., Kanerva, T., Jantunen, H., Lepisto, T., Mansikkamaki, P.

“…This paper reviews the effect of finite conductivity of printed transmission lines on the measured dielectric constant. Printed conductors having thicknesses…”
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High-frequency characterization and simulation of conductor loss in printable electronics technology by Pynttari, V., Makinen, R., Lilja, J., Pekkanen, V., Mantysalo, M., Mansikkamaki, P., Kivikoski, M.

“…The conductor loss of very thin lossy printed silver nanoparticle traces manufactured using the printable electronics technology is characterized up to 10 GHz…”
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