METHOD FOR PRODUCING SYNTHETIC QUARTZ GLASS AND SYNTHETIC QUARTZ GLASS ARTICLE

Details for Australian Patent Application No. 2003284494 (hide)

Owner SHIN-ETSU QUARTZ PRODUCTS CO., LTD.

Inventors FUJINOKI, Akira; KATO, Toshiyuki; SEGAWA, Tohru; YOSHIDA, Nobumasa; SATO, Tatsuhiro; KAITOU, Takahiro

Pub. Number AU-A-2003284494

PCT Number PCT/JP2003/0152

PCT Pub. Number WO2004/050570

Priority 2002-348163 29.11.02 JP; 2003-115795 21.04.03 JP; 2003-179211 24.06.03 JP; 2003-272570 09.07.03 JP; 2003-388051 18.11.03 JP

Filing date 28 November 2003

Wipo publication date 23 June 2004

International Classifications

C03B 020/00 Processes specially adapted for the production of quartz or fused silica articles

C03B 008/04 Production of glass by other processes than melting processes

C03C 003/06 Glass compositions -

Event Publications

25 March 2004 Complete Application Filed

  Priority application(s): 2002-348163 29.11.02 JP; 2003-115795 21.04.03 JP; 2003-179211 24.06.03 JP; 2003-272570 09.07.03 JP; 2003-388051 18.11.03 JP

29 July 2004 Application Open to Public Inspection

  Published as AU-A-2003284494

18 August 2005 Application Lapsed, Refused Or Withdrawn, Patent Ceased or Expired

  This application lapsed under section 142(2)(f)/See Reg. 8.3(3). Examination has not yet been requested or directed for this application. Note that applications or patents shown as lapsed or ceased may be restored at a later date.

Legal

The information provided by the Site not in the nature of legal or other professional advice. The information provided by the Site is derived from third parties and may contain errors. You must make your own enquiries and seek independent advice from the relevant industry professionals before acting or relying on any information contained herein. Check the above data against the Australian Patent Office AUSPAT database.

Next and Previous Patents/Applications

2003284495-RECORDING HEAD AND RECORDER COMPRISING SUCH RECORDING HEAD

2003284493-METHOD OF ANALYZING CTERMINAL AMINO ACID SEQUENCE OF PEPTIDE