device

*State of the art Innovative concept Top system Higher efficient percent.*Power by bar, for Air-Planes, Sea-Boats, Land-Transport & Dynamic Power-Plant Generation.

-Have similar system of the Aeolipile Heron Steam device from Alexandria 10-70 AD. -New Form-Function Motor-Engine Device. Next Step, Epic Design Change, Broken-Seal Revelation. -Desirable Power-Plant Innovation.

State of the Art-Novel InFlow Tech Project Development; 1-Gearturbine RotaryTurbo 2-Imploturbocompressor One MovingPart System ExcellenceDesign

Submitted by retrodynamic on Wed, 06/10/2015 - 18:32

State of the Art - Novel InFlow Tech - Featured Project Development;

1-Gearturbine, 2-Imploturbocompressor

-----------------------------------

1-GEARTURBINE PROJECT

Rotary-Turbo-InFlow Tech

Atypical InFlow Thermodynamic

Technology Proposal Submission
Novel Fueled Motor Engine Type

Novel Rotary-Turbo-InFlow Tech - Gearturbine Project - Featured Development - Atypical Type

Submitted by retrodynamic on Tue, 05/28/2013 - 16:06

mechanician

-Atypical - Gearturbine = Retrodynamic Dextrogiro VS Levogiro Effect - Ying Yang Thrust Way Type - Non Waste Looses. State of the Art, Innovative concept Top System, Higher Efficient Percent.

-Its Similar simple system, of the Heron`s Aeolipile Steam Turbine Device, from Alexandria; 10-70 AD.

-8/XY Thermodynamic Cycle way Steps.

-New Form-Function Motor Engine Device Type.

Mimics®14 enables design on anatomical data

Submitted by Mimics on Mon, 10/04/2010 - 09:56

Mimics 14 comes with a CAD-like functionality, enabling you to design directly on anatomical data.

Leuven, Belgium, October 4, 2010. Materialise NV, the world leader in software for 3D medical image processing, announces the release of Mimics 14.This release integrates ‘digital’ CAD, allowing fast and accurate design of e.g. implants and surgical guides, starting from a patient’s CT or MRI data.

Faculty Positions at Piezoelectric Device Laboratory, Ningbo University

Submitted by Ji Wang on Wed, 07/14/2010 - 06:33

The Piezoelectric Device Laboratory has immediate opennings for recent PhDs. We are engaged in researchs in piezoeelctric acoustic wave resonators with supports from government and indsutry. The Laboratory has been grwoing and we would like to have new members to accelerate the pace and expand collaborations with the fast growing piezoelectric acoustic wave device industry in China and other countries.

2010 Symposium on Piezoelectricity,Acoustic Waves, and Device Applications

Submitted by Ji Wang on Tue, 07/13/2010 - 13:45

CSTAM ASC IEEE

2010 Symposium on Piezoelectricity, Acoustic Waves, and Device Applications

December 10-13, 2010, Xiamen, Fujian,
China

Website：http://piezo.xmu.edu.cn/spawda10

Second Symposium on Piezoelectricity, Acoustic Waves, and Device Applications (Spawda 2006)

Submitted by Ji Wang on Sun, 10/22/2006 - 07:24

Advances in the research of the theory of Piezoelectricity and Acoustic Waves have provided essential foundation and new opportunities to device technology and have been fostering academic exchanges and interaction in the piezoelectric device industry.With the increased research activities in piezoelectricity and acoustic waves and recent fast growth in piezoelectric devices, we are also facing many technological challenges from real engineering applications and product design and manufacturing.Following the successful SPAWDA 2004 in Ningbo, Chinese Society of Theoretical and Applied Mechanics, IEEE UFFC and the Acoustical Society of China have decided, also with industrial support, to hold the SPAWDA 2006 at Zhejiang University, Hangzhou, Zhejiang, China from December 14-17.The conference topics include, but not limited to,

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