̤ÅÐÏ¿¥æ¡¼¥¶¤Ï²¹ÅÙÈÏ°Ï20~30[¡î]¡¢¼þÇÈ¿ôÈÏ°Ï2~3[GHz]¤ÎʪÀÃͤΤßɽ¼¨¤µ¤ì¤Þ¤¹¡£
̵ÎÁ²ñ°÷¤ËÅÐÏ¿¤¹¤ë¤³¤È¤Ç¡¢²¹ÅÙÈÏ°Ï0~300[¡î]¤ÎʪÀÃÍ¡¢ÍÎÁ²ñ°÷¤Ï¤¹¤Ù¤Æɽ¼¨¤µ¤ì¤Þ¤¹¡£
ʪ¼Á̾ | ¥°¥é¥Õ |
---|---|
¦Á-¥È¥ê¥Ë¥È¥í¥È¥ë¥¨¥ó(Ìó20%¼¾ÅÙ´Þ¤à)
¥Ç¡¼¥¿¿ô¡§20 War Dept. Picatinny Arsenal. |
100 [Hz] - 10 [GHz] |
¥Ê¥Õ¥¿¥ì¥ó
¥Ç¡¼¥¿¿ô¡§12 Eastman Kodak: recryst. And resubl. Lab. Ins. Res |
1 [kHz] - 3 [GHz] |
¥á¥¿¥Æ¥ë¥Õ¥§¥Ë¥ë
¥Ç¡¼¥¿¿ô¡§12 Monsanto recryst. Lab. Ins Res. |
1 [kHz] - 3 [GHz] |
¥Ñ¥é¥Æ¥ë¥Õ¥§¥Ë¥ë
¥Ç¡¼¥¿¿ô¡§2 ¦Å¡Ç/¦Å 2.95-3.2 depending on degree of crystallization Monsanto recryst. Lab. Ins Res. |
3 [Hz] 25 [¡î] |
¥»¥ì¥ó¥¢¥â¥ë¥Õ¥¡¥¹
¥Ç¡¼¥¿¿ô¡§16 Amer. Smelt. And Refining |
100 [Hz] - 25 [GHz] |
¥¢¥Ë¥ê¥ó(Cibanite E)
¥Ç¡¼¥¿¿ô¡§18 100% (Ciba) |
100 [Hz] - 10 [GHz] |
¥¢¥Ë¥ê¥ó(Dilectene100 1943 product)
¥Ç¡¼¥¿¿ô¡§18 100% (Continental-Diamond). |
100 [Hz] - 30 [GHz] |
¥¢¥Ë¥ê¥ó(Dilectene100 1943 product)
¥Ç¡¼¥¿¿ô¡§18 100% (Continental-Diamond). |
100 [Hz] - 10 [GHz] |
¥á¥é¥ß¥ó(Formica Grade FF-55 ÁؤËÂФ·¤ÆÅų¦¿åÊ¿)
¥Ç¡¼¥¿¿ô¡§8 Glass fiber mat (Formica) Stacked sheets in coaxial line |
300 [MHz] - 30 [GHz] |
¥á¥é¥ß¥ó(Melmac¼ù»é¡¡592)
¥Ç¡¼¥¿¿ô¡§50 Mineral fillter (Am. Cyanamid) |
100 [Hz] - 10 [GHz] 27 - 88 [¡î] |
¥á¥é¥ß¥ó(Melmac Type 1077)
¥Ç¡¼¥¿¿ô¡§16 25% alpha pulp Zn stearate (Am. Cyanamid) |
100 [Hz] - 10 [GHz] |
¥á¥é¥ß¥ó(Melmac Molding Compound 1500)
¥Ç¡¼¥¿¿ô¡§20 40% wood flour 18% plasticizer (Am. Cyanamid) |
100 [Hz] - 10 [GHz] |
¥á¥é¥ß¥ó(Melmac Molding Compound 1502 Polyglas M)
¥Ç¡¼¥¿¿ô¡§20 "56.5% Am. Cyanamid¡Çs Melmac 7278 43.5% Owens-Corning¡Çs Glass ""K"" (Hood Rubber)" |
100 [Hz] - 10 [GHz] |
¥á¥é¥ß¥ó(Micarta #259 ÁؤËÂФ·¤ÆÅų¦¿åÊ¿)
¥Ç¡¼¥¿¿ô¡§8 65-70% Fiberglas (Westinghouse) |
300 [MHz] - 30 [GHz] |
¥á¥é¥ß¥ó(Panelyte 140 ÁؤËÂФ·¤ÆÅų¦¿åÊ¿)
¥Ç¡¼¥¿¿ô¡§6 Fiberglas (St. Regis) |
300 [MHz] - 30 [GHz] |
¥á¥é¥ß¥ó(Panelyte Plaskon Melamine)
¥Ç¡¼¥¿¿ô¡§38 ¦Á-cellulose(Libbey-Owens-Ford). |
100 [Hz] - 10 [GHz] 24 - 80 [¡î] |
¥á¥é¥ß¥ó(Resimene 803-A ̤À®·Á)
¥Ç¡¼¥¿¿ô¡§20 40% cellulose (Monsanto) |
100 [Hz] - 10 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(LL-1)
¥Ç¡¼¥¿¿ô¡§36 55.4% acetyle (Hercules). |
100 [Hz] - 30 [GHz] 25 - 85 [¡î] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(Lumarith IFA-H4)
¥Ç¡¼¥¿¿ô¡§20 28% plast. (Celanese) |
100 [Hz] - 10 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(Tenite I 008A ¶2)
¥Ç¡¼¥¿¿ô¡§18 23-31% plasticizer dyes (Tenn. Eastman) |
100 [Hz] - 30 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(Tenite I 008A ¶4)
¥Ç¡¼¥¿¿ô¡§20 23-31% plasticizer dyes (Tenn. Eastman) |
100 [Hz] - 30 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(Tenite I 008A M)
¥Ç¡¼¥¿¿ô¡§16 23-31% plasticizer dyes (Tenn. Eastman) |
100 [Hz] - 3 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(Tenite I 008A MH)
¥Ç¡¼¥¿¿ô¡§18 23-31% plasticizer dyes (Tenn. Eastman) |
100 [Hz] - 10 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(Tenite I 008A S)
¥Ç¡¼¥¿¿ô¡§16 23-31% plasticizer dyes (Tenn. Eastman) |
100 [Hz] - 3 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(Tenite I 008A S4)
¥Ç¡¼¥¿¿ô¡§18 23-31% plasticizer dyes (Tenn. Eastman) |
100 [Hz] - 30 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(Tenite ¶ 205A H2)
¥Ç¡¼¥¿¿ô¡§16 5-15% plastioizer pigments dyes (Tenn. Eastman). |
100 [Hz] - 3 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(Tenite ¶ 205A H4)
¥Ç¡¼¥¿¿ô¡§18 5-15% plastioizer pigments dyes (Tenn. Eastman). |
1 [kHz] - 10 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(Tenite ¶ 205A MA)
¥Ç¡¼¥¿¿ô¡§16 5-15% plastioizer pigments dyes (Tenn. Eastman). |
100 [Hz] - 3 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(Tenite ¶ 205A MS)
¥Ç¡¼¥¿¿ô¡§18 5-15% plastioizer pigments dyes (Tenn. Eastman). |
100 [Hz] - 10 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(Tenite ¶ 205A S2)
¥Ç¡¼¥¿¿ô¡§16 5-15% plastioizer pigments dyes (Tenn. Eastman). |
100 [Hz] - 3 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¢¥»¥Æ¡¼¥È(Tenite ¶ 205A S4)
¥Ç¡¼¥¿¿ô¡§18 5-15% plastioizer pigments dyes (Tenn. Eastman). |
100 [Hz] - 30 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥×¥í¥Ô¥ª¥Í¡¼¥È(Foticel)
¥Ç¡¼¥¿¿ô¡§20 8% plast. (Celanese) |
100 [Hz] - 10 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¾Ë»À±ö(Pyralin)
¥Ç¡¼¥¿¿ô¡§32 25% camphor (DuPont) |
100 [Hz] - 10 [GHz] 27 - 78 [¡î] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥á¥Á¥ë¥»¥ë¥í¡¼¥¹(Ethocel)
¥Ç¡¼¥¿¿ô¡§16 Dow |
100 [Hz] - 3 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¨¥Á¥ë¥»¥ë¥í¡¼¥¹(Ethocel LT5)
¥Ç¡¼¥¿¿ô¡§20 Dow |
100 [Hz] - 10 [GHz] |
¥»¥ë¥í¡¼¥¹Í¶Æ³¥¨¥Á¥ë¥»¥ë¥í¡¼¥¹(Ethocel lumarith #22361)
¥Ç¡¼¥¿¿ô¡§38 13% plast. (Celanese) |
100 [Hz] - 30 [GHz] 24 - 84 [¡î] |
¥Ý¥ê¥¨¥¹¥Æ¥ë(Plaskon 911)
¥Ç¡¼¥¿¿ô¡§38 Unsaturated polyester (Libby-Owens-Ford). |
100 [Hz] - 10 [GHz] 24 - 80 [¡î] |
¥Ý¥ê¥¨¥¹¥Æ¥ë(Marco Resin MR-21C)
¥Ç¡¼¥¿¿ô¡§18 Unsaturated polyester (Marco). |
100 [Hz] - 10 [GHz] |
¥Ý¥ê¥¨¥¹¥Æ¥ë(Marco Resin MR-23C)
¥Ç¡¼¥¿¿ô¡§18 Unsaturated polyester (Marco). |
100 [Hz] - 10 [GHz] |
¥Ý¥ê¥¨¥¹¥Æ¥ë(Marco Resin MR-25C)
¥Ç¡¼¥¿¿ô¡§20 Unsaturated polyester (Marco). |
100 [Hz] - 10 [GHz] |
¥Ý¥ê¥¨¥¹¥Æ¥ë(Laminate BD-44)
¥Ç¡¼¥¿¿ô¡§20 Selectron 5003 Fiberglas (Owens-Corning). |
100 [Hz] - 10 [GHz] |
¥Ý¥ê¥¨¥¹¥Æ¥ë(Laminate BK164)
¥Ç¡¼¥¿¿ô¡§20 38% polyester (Bakelite BRS-16631) 62% Fiberglas (Owens-Corning). |
100 [Hz] - 10 [GHz] |
¥Ý¥ê¥¨¥¹¥Æ¥ë(Paraplex p13)
¥Ç¡¼¥¿¿ô¡§20 Rohm and Haas. |
100 [Hz] - 10 [GHz] |
¥Ý¥ê¥¨¥¹¥Æ¥ë(Paraplex p43)
¥Ç¡¼¥¿¿ô¡§20 Rohm and Haas. |
100 [Hz] - 10 [GHz] |
¥Ý¥ê¥¨¥¹¥Æ¥ë(¥Ý¥ê¥¸¥¢¥ê¥ë¥Õ¥¿¥ì¡¼¥È)
¥Ç¡¼¥¿¿ô¡§18 Shell Dev. |
100 [Hz] - 10 [GHz] |
¥Ý¥ê¥¨¥¹¥Æ¥ë(Allymer CR-39)
¥Ç¡¼¥¿¿ô¡§34 Allyl resin (Southern Alkali Corp.) |
100 [Hz] - 30 [GHz] 24 - 84 [¡î] |
¥Ý¥ê¥¨¥¹¥Æ¥ë(Allymer CR-39 laminate)
¥Ç¡¼¥¿¿ô¡§16 40% resin 60% ECC-11-148 Fiberglas (Southern Alkali Corp.). |
100 [Hz] - 3 [GHz] |
¥Ý¥ê¥¨¥¹¥Æ¥ë(Phoresin)
¥Ç¡¼¥¿¿ô¡§22 Dially phenyl phosphonate resin (Victor). |
100 [Hz] - 30 [GHz] |
¥Ö¥Á¥ë( GR-I (butyl rubber) )
¥Ç¡¼¥¿¿ô¡§18 Copolymer of 98-99% isobutylene 1-2% isoprene (Rubber Res. Corp.). |
100 [Hz] - 10 [GHz] |
¥Ö¥Á¥ë( GR-I compound )
¥Ç¡¼¥¿¿ô¡§18 100 pts. GR-I 44-7 M2k 5 pts. Zinc oxide (from ZenCO3) 1 pt. Tuads 1.5 pts. Sulfur (Rubber Res. Corp.). |
100 [Hz] - 10 [GHz] |
¥Ë¥È¥ê¥ë(Kralastic BE Natural)
¥Ç¡¼¥¿¿ô¡§20 Naugatuck |
100 [Hz] - 10 [GHz] |
¥Ë¥È¥ê¥ë(Kralastic EM Natural)
¥Ç¡¼¥¿¿ô¡§20 Naugatuck |
100 [Hz] - 10 [GHz] |
¥Ë¥È¥ê¥ë(Kralastic D Natural)
¥Ç¡¼¥¿¿ô¡§20 Naugatuck |
100 [Hz] - 10 [GHz] |
¥Ë¥È¥ê¥ë(Kralastic EBMU Natural)
¥Ç¡¼¥¿¿ô¡§20 Naugatuck |
100 [Hz] - 10 [GHz] |
¥Ë¥È¥ê¥ë(Kralastic F Natural)
¥Ç¡¼¥¿¿ô¡§20 Naugatuck |
100 [Hz] - 10 [GHz] |
¥Ë¥È¥ê¥ë(Royalite 149-11)
¥Ç¡¼¥¿¿ô¡§18 Polystyrene-acrylonitrile and polybutadiene-acrylonitrile (U.S.Rubber). |
100 [Hz] - 10 [GHz] |
¥Ë¥È¥ê¥ë(Expanded Royalite M21982-1 (field ||¡¡plane of sample) )
¥Ç¡¼¥¿¿ô¡§6 Polystyrene-acrylonitrile and polybutadiene-acrylonitrile (U.S.Rubber). |
1 [GHz] - 10 [GHz] |
¥Ë¥È¥ê¥ë(Expanded Royalite M22191 (field ||¡¡plane of sample) )
¥Ç¡¼¥¿¿ô¡§6 Polystyrene-acrylonitrile and polybutadiene-acrylonitrile (U.S.Rubber). |
1 [GHz] - 10 [GHz] |
¥Í¥ª¥×¥ì¥ó(Neoprene GN)
¥Ç¡¼¥¿¿ô¡§16 Poly-2-chlorobutadiene-1 3 stabilized with tetraethylthiuram disulfide (Du Pont). |
100 [Hz] - 3 [GHz] |
¥Í¥ª¥×¥ì¥ó(Neoprene compound)
¥Ç¡¼¥¿¿ô¡§42 38% GN 28.4% Catalpo Clay 14% blanc fire 0.4% Gastax (carbon black) 1.9% paraffin 3.8% Circo (light process oil) 0.2% stearric acid 0.8% Neozone A 0.4% Parazone 7.6% litharge (DuPont). |
100 [Hz] - 25 [GHz] 24 - 80 [¡î] |
¥Á¥ª¥³¡¼¥ë(Thiokol Type FA compound)
¥Ç¡¼¥¿¿ô¡§20 100 pts. Thiokol(organic polysulfide) 10 pts. Zinc oxide 60pts. Semi-reinforcing carbon brack 1 pt. stearic acid 0.5 pt. diphenylguanidine 35 pt. Altax (Thiokol). |
1 [kHz] - 25 [GHz] |
¥Á¥ª¥³¡¼¥ë(Thiokol PRI compound)
¥Ç¡¼¥¿¿ô¡§16 100 pts. Polysulfide copolymer of bis (2-chloroethyl) formal and ethylene dichloride 60 pts. Carbon blanks compounding. (Thiokol). |
1 [kHz] - 10 [GHz] |
¥Á¥ª¥³¡¼¥ë(Thiokol ST compound)
¥Ç¡¼¥¿¿ô¡§16 100 pts. Polysulfide polysulfide polymer of bis (2-chloroethyl) formal 60 pts carbon blacks compounding ingredients. (Thiokol).) |
1 [kHz] - 10 [GHz] |
Àи´ ¥¢¥¤¥Ü¥ê¡¼
¥Ç¡¼¥¿¿ô¡§2
|
3 [Hz] 25 [¡î] |
̵µ¡(¿åÀ±ö²½¥Ê¥È¥ê¥¦¥à 0.3¥â¥ë)
¥Ç¡¼¥¿¿ô¡§8
|
100 [kHz] - 10 [GHz] |
̵µ¡(¿åÀ±ö²½¥Ê¥È¥ê¥¦¥à 0.5¥â¥ë)
¥Ç¡¼¥¿¿ô¡§8
|
100 [kHz] - 10 [GHz] |
͵¡±ÕÂÎ(»éËò ¥Ø¥×¥¿¥ó)
¥Ç¡¼¥¿¿ô¡§12 <0.0003 |
100 [Hz] - 10 [GHz] |
͵¡±ÕÂÎ(¥á¥Á¥ë¥¢¥ë¥³¡¼¥ëb)
¥Ç¡¼¥¿¿ô¡§12 Absolute analytical grade |
1 [MHz] - 10 [GHz] |
͵¡±ÕÂÎ(¥á¥Á¥ë¥¢¥ë¥³¡¼¥ëc)
¥Ç¡¼¥¿¿ô¡§12 Absolute |
1 [MHz] - 10 [GHz] |
͵¡±ÕÂÎ(n-¥×¥í¥Ô¥ë¡¦¥¢¥ë¥³¡¼¥ë)
¥Ç¡¼¥¿¿ô¡§12
|
1 [MHz] - 10 [GHz] |
͵¡±ÕÂÎ(n-¥Ö¥Á¥ë¡¦¥¢¥ë¥³¡¼¥ë)
¥Ç¡¼¥¿¿ô¡§12
|
100 [kHz] - 3 [GHz] |
͵¡±ÕÂÎ(¥¨¥Á¥ì¥ó¡¦¥°¥ê¥³¡¼¥ë)
¥Ç¡¼¥¿¿ô¡§16
|
10 [kHz] - 10 [GHz] |
͵¡±ÕÂÎ(¥»¥Ð¥·¥ó»À ¥¸¥Ö¥Á¥ë)
¥Ç¡¼¥¿¿ô¡§16
|
100 [Hz] - 3 [GHz] |
͵¡±ÕÂÎ(¥»¥Ð¥·¥ó»À ¥¸¥ª¥¯¥Á¥ë)
¥Ç¡¼¥¿¿ô¡§16
|
100 [Hz] - 3 [GHz] |
͵¡±ÕÂÎ(»Í±ö²½ÃºÁÇ)
¥Ç¡¼¥¿¿ô¡§20 ¿å¼ÁʬÀÏÍÑɸ½àÍÏ±Õ »Í±ö²½ÃºÁÇ (1mg/mL ¥á¥¿¥Î¡¼¥ëÍϱÕ) |
100 [Hz] - 10 [GHz] |
͵¡±ÕÂÎ(¥Æ¥È¥é¥¯¥í¥í¥¨¥Á¥ì¥ó )
¥Ç¡¼¥¿¿ô¡§14 ¥Æ¥È¥é¥¯¥í¥í¥¨¥Á¥ì¥ó (1mg/ml¥á¥¿¥Î¡¼¥ëÍϱÕ) [¿å¼ÁʬÀÏÍÑ] |
100 [Hz] - 3 [GHz] |
͵¡±ÕÂÎ(¥Ø¥¥µ¥¯¥í¥í-1 3-¥Ö¥¿¥¸¥¨¥ó)
¥Ç¡¼¥¿¿ô¡§20
|
100 [Hz] - 10 [GHz] |
»éËò ¥¸¥¯¥í¥í¥Ú¥ó¥¿¥ó#40
¥Ç¡¼¥¿¿ô¡§12
|
1 [kHz] - 3 [GHz] |
»éËò ¥Õ¥ÃÁǼù»éKel¡ÝF 1µé
¥Ç¡¼¥¿¿ô¡§18
|
1 [kHz] - 10 [GHz] |
»éËò ¥Õ¥ÃÁǼù»éKel¡ÝF 3µé
¥Ç¡¼¥¿¿ô¡§18 3M¼Ò¤ÎPCTFE¡¡1995ǯÀ¸»ºÃæ»ß |
100 [Hz] - 10 [GHz] |
»éËò ¥Õ¥ÃÁǼù»éKel¡ÝF 10µé
¥Ç¡¼¥¿¿ô¡§18 3M¼Ò¤ÎPCTFE¡¡1995ǯÀ¸»ºÃæ»ß |
100 [Hz] - 10 [GHz] |
»éËò ¥Õ¥ÃÁǼù»éKel¡ÝF ¥°¥ê¡¼¥¹#40
¥Ç¡¼¥¿¿ô¡§18 3M¼Ò¤ÎPCTFE¡¡1995ǯÀ¸»ºÃæ»ß |
100 [Hz] - 10 [GHz] |
»éËò ¥Ú¥ë¥Õ¥ë¥ª¥í¥¸¥Ø¥¥·¥ë¡¦¥¨¡¼¥Æ¥ë
¥Ç¡¼¥¿¿ô¡§16
|
100 [Hz] - 10 [GHz] |
»éËò ¥Ø¥×¥¿¥³¥µ¥Õ¥ë¥ª¥í¥È¥ê¥Ö¥Á¥ë¥¢¥ß¥ó
¥Ç¡¼¥¿¿ô¡§20
|
100 [Hz] - 10 [GHz] |
˧¹á² HB-40¥ª¥¤¥ë
¥Ç¡¼¥¿¿ô¡§20
|
100 [Hz] - 10 [GHz] |
˧¹á² ¥Ý¥ê±ö²½¥Ó¥Õ¥§¥Ë¥ë 1467
¥Ç¡¼¥¿¿ô¡§20
|
100 [Hz] - 10 [GHz] |
˧¹á² ¥Ý¥ê±ö²½¥Ó¥Õ¥§¥Ë¥ë 1221
¥Ç¡¼¥¿¿ô¡§14
|
1 [MHz] - 10 [GHz] |
˧¹á² ¥Ý¥ê±ö²½¥Ó¥Õ¥§¥Ë¥ë 1232
¥Ç¡¼¥¿¿ô¡§14
|
1 [MHz] - 10 [GHz] |
˧¹á² ¥Ý¥ê±ö²½¥Ó¥Õ¥§¥Ë¥ë 1242
¥Ç¡¼¥¿¿ô¡§14
|
1 [MHz] - 10 [GHz] |
˧¹á² ¥Ý¥ê±ö²½¥Ó¥Õ¥§¥Ë¥ë 1248
¥Ç¡¼¥¿¿ô¡§16
|
100 [kHz] - 10 [GHz] |
˧¹á² ¥Ý¥ê±ö²½¥Ó¥Õ¥§¥Ë¥ë 1254
¥Ç¡¼¥¿¿ô¡§18
|
10 [kHz] - 10 [GHz] |
˧¹á² ¥Ý¥ê±ö²½¥Ó¥Õ¥§¥Ë¥ë 1467
¥Ç¡¼¥¿¿ô¡§16
|
1 [kHz] - 10 [GHz] |
˧¹á² ¥Ý¥ê±ö²½¥Ó¥Õ¥§¥Ë¥ë 1262
¥Ç¡¼¥¿¿ô¡§16
|
100 [Hz] - 10 [GHz] |
˧¹á² ¥Ý¥ê±ö²½¥Ó¥Õ¥§¥Ë¥ë 5442
¥Ç¡¼¥¿¿ô¡§4
|
3 [GHz] - 10 [GHz] |
˧¹á² ¥Ï¥í¥ï¥Ã¥¯¥¹¡¦¥ª¥¤¥ë 1000
¥Ç¡¼¥¿¿ô¡§32
|
100 [Hz] - 10 [GHz] 25 - 80 [¡î] |
˧¹á² ¥Ë¥È¥í¥Ù¥ó¥¼¥ó
¥Ç¡¼¥¿¿ô¡§10
|
10 [kHz] - 3 [GHz] |
˧¹á² ¥¹¥Á¥ì¥ó N-100
¥Ç¡¼¥¿¿ô¡§16
|
100 [Hz] - 10 [GHz] |
˧¹á² ¥¹¥Á¥ì¥ó N-100 ¾ô²½
¥Ç¡¼¥¿¿ô¡§12
|
100 [Hz] - 10 [GHz] |
˧¹á² ¥¹¥Á¥ì¥ó N-100 Ë°Ï¿å
¥Ç¡¼¥¿¿ô¡§8
|
100 [Hz] - 3 [GHz] |
˧¹á² ¥¹¥Á¥ì¥ó¡¦¥À¥¤¥Þ¡¼
¥Ç¡¼¥¿¿ô¡§10
|
100 [kHz] - 3 [GHz] |
˧¹á² 2.5¥¸¥¯¥í¥í¥¹¥Á¥ì¥ó
¥Ç¡¼¥¿¿ô¡§16
|
100 [Hz] - 3 [GHz] |
˧¹á² ¥Ý¥ê±ö²½¥Ó¥Õ¥§¥Ë¥ë 1478
¥Ç¡¼¥¿¿ô¡§16
|
100 [Hz] - 3 [GHz] |
˧¹á² ¥Ù¡¼¥¿¡¦¥¯¥í¥í¥¨¥Á¥ë-2 5-k
¥Ç¡¼¥¿¿ô¡§16
|
1 [kHz] - 3 [GHz] |
˧¹á² ¥¨¥Á¥ë¥Ý¥ê¥¯¥í¥í¥Ù¥ó¥¼¥ó
¥Ç¡¼¥¿¿ô¡§38
|
100 [Hz] - 10 [GHz] 25 - 100 [¡î] |
͵¡±ÕÂΡʥ·¥ê¥³¡¼¥ó DC500 0.65cs)
¥Ç¡¼¥¿¿ô¡§22
|
100 [Hz] - 25 [GHz] -15 - 22 [¡î] |
͵¡±ÕÂΡʥ·¥ê¥³¡¼¥ó DC500 10cs)
¥Ç¡¼¥¿¿ô¡§18
|
100 [Hz] - 25 [GHz] |
͵¡±ÕÂΡʥ·¥ê¥³¡¼¥ó DC500 100cs)
¥Ç¡¼¥¿¿ô¡§12
|
100 [Hz] - 25 [GHz] |
͵¡±ÕÂΡʥ·¥ê¥³¡¼¥ó DC200 100cs)
¥Ç¡¼¥¿¿ô¡§12
|
100 [Hz] - 25 [GHz] |
͵¡±ÕÂΡʥ·¥ê¥³¡¼¥ó DC200 1000cs)
¥Ç¡¼¥¿¿ô¡§16
|
100 [Hz] - 10 [GHz] |
͵¡±ÕÂΡʥ·¥ê¥³¡¼¥ó DC200 7600cs.)
¥Ç¡¼¥¿¿ô¡§46 <0.0005 |
100 [Hz] - 10 [GHz] -17 - 83 [¡î] |
͵¡±ÕÂΡʥ·¥ê¥³¡¼¥ó DC550)
¥Ç¡¼¥¿¿ô¡§18
|
100 [Hz] - 10 [GHz] |
͵¡±ÕÂΡʥ·¥ê¥³¡¼¥ó DC710)
¥Ç¡¼¥¿¿ô¡§18
|
100 [Hz] - 10 [GHz] |
͵¡±ÕÂΡʥ·¥ê¥³¡¼¥ó ÅÀ²ÐÉõ»ßºÞ #4)
¥Ç¡¼¥¿¿ô¡§32
|
100 [Hz] - 10 [GHz] 25 - 80 [¡î] |
͵¡±ÕÂΡʥ·¥ê¥³¡¼¥ó SF96-40)
¥Ç¡¼¥¿¿ô¡§18 <0.00003 |
100 [Hz] - 10 [GHz] |
͵¡±ÕÂΡʥ·¥ê¥³¡¼¥ó SF96-100)
¥Ç¡¼¥¿¿ô¡§18 <0.00006 |
100 [Hz] - 10 [GHz] |
͵¡±ÕÂΡʥ·¥ê¥³¡¼¥ó SF96-1000)
¥Ç¡¼¥¿¿ô¡§18 <0.00003 |
100 [Hz] - 10 [GHz] |
Ê᪹⼾Å٥ǡ¼¥¿¡Ê¥Ê¥¤¥í¥ó ´¥Áç)
¥Ç¡¼¥¿¿ô¡§2
|
3 [Hz] 25 [¡î] |
Ê᪹⼾Å٥ǡ¼¥¿¡Ê¥Ê¥¤¥í¥ó 20Æü¸å 90%ÁêÂм¾ÅÙ)
¥Ç¡¼¥¿¿ô¡§2
|
3 [Hz] 25 [¡î] |
Ê᪹⼾Å٥ǡ¼¥¿¡Ê¥Ý¥ê¥¹¥Á¥ì¥ó ´¥Áç)
¥Ç¡¼¥¿¿ô¡§2
|
3 [Hz] 25 [¡î] |
Ê᪹⼾Å٥ǡ¼¥¿¡Ê¥Ý¥ê¥¹¥Á¥ì¥ó 10Æü¸å 90%ÁêÂм¾ÅÙ)
¥Ç¡¼¥¿¿ô¡§2
|
3 [Hz] 25 [¡î] |
(ClCH2)2
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
[OCN(CH2)3]2
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
1,2-Cl2C6H4
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
ALFO DN 41(¥Ý¥ê¿Ý»À¥Ó¥Ë¥ë)
¥Ç¡¼¥¿¿ô¡§14 ʸ¸¥2¼ïÎà |
20 - 80 [¡î] |
BuOH
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
C10H7Cl
¥Ç¡¼¥¿¿ô¡§8
|
25 - 75 [¡î] |
C15H14O2
¥Ç¡¼¥¿¿ô¡§8
|
28 - 70 [¡î] |
C2H6O2
¥Ç¡¼¥¿¿ô¡§12
|
1.43 [GHz] - 2.134 [GHz] 10 - 50 [¡î] |
C3H8O
¥Ç¡¼¥¿¿ô¡§6
|
20 - 60 [¡î] |
C3H8O2
¥Ç¡¼¥¿¿ô¡§2
|
2 [Hz] 28 [¡î] |
C3H8O3
¥Ç¡¼¥¿¿ô¡§2
|
2 [Hz] 28 [¡î] |
C4H10O
¥Ç¡¼¥¿¿ô¡§2
|
2 [Hz] 28 [¡î] |
C4H10O3
¥Ç¡¼¥¿¿ô¡§2
|
2 [Hz] 28 [¡î] |
C4H4S
¥Ç¡¼¥¿¿ô¡§6
|
20 - 60 [¡î] |
C4H5N
¥Ç¡¼¥¿¿ô¡§6
|
20 - 60 [¡î] |
C6H11Br
¥Ç¡¼¥¿¿ô¡§8
|
25 - 75 [¡î] |
C6H5Br
¥Ç¡¼¥¿¿ô¡§6
|
20 - 50 [¡î] |
C6H5NO2
¥Ç¡¼¥¿¿ô¡§6
|
20 - 50 [¡î] |
CH2Cl2
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
CHCl3
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
DMSO
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
Durolok 270
¥Ç¡¼¥¿¿ô¡§14 ʸ¸¥2¼ïÎà |
20 - 80 [¡î] |
Et2O
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
EtOH
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
H2O
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
hexane
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
Me2CO
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
MeCN
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
MeCO2Et
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
MeCOEt
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
Mel
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
MeNO2
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
MeOH
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
MePH
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
N,N-¥¸¥á¥Á¥ë¥Û¥ë¥à¥¢¥ß¥É
¥Ç¡¼¥¿¿ô¡§42 R2 ¦Å'=0.9983, ¦Å''=0.9776 |
2 [GHz] - 3 [GHz] 20 - 80 [¡î] |
N,N-¥¸¥á¥Á¥ë¥Û¥ë¥à¥¢¥ß¥É
¥Ç¡¼¥¿¿ô¡§42 R2 ¦Å'=0.9983, ¦Å''=0.9873 |
2 [GHz] - 3 [GHz] 20 - 80 [¡î] |
N,N-¥¸¥á¥Á¥ë¥Û¥ë¥à¥¢¥ß¥É
¥Ç¡¼¥¿¿ô¡§42 R2 ¦Å'=0.9991, ¦Å''=0.9931 |
2 [GHz] - 3 [GHz] 20 - 80 [¡î] |
NA 62
¥Ç¡¼¥¿¿ô¡§14 ʸ¸¥2¼ïÎà |
20 - 80 [¡î] |
NMI
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
NMP
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
PhCHO
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
PhCl
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
PhCN
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
PhH
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
PhNO2
¥Ç¡¼¥¿¿ô¡§2
|
2.45 [Hz] 25 [¡î] |
Stauf Cold Glue 153
¥Ç¡¼¥¿¿ô¡§12 ʸ¸¥2¼ïÎà |
30 - 80 [¡î] |
Stauf Cold Glue 153(¥´¥à·ÏÀÜÃåºÞ)
¥Ç¡¼¥¿¿ô¡§2 ʸ¸¥2¼ïÎà |
2.45 [Hz] 20 [¡î] |
¥¢¥¸¥Ô¥ó»À(Ê´Ëö)
¥Ç¡¼¥¿¿ô¡§12
|
20 - 70 [¡î] |
¥¢¥¸¥Ô¥ó»À¡¦¥¢¥»¥È¥óº®¹ç±Õ 30 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥ¢¥¸¥Ô¥ó»À¤ËÂФ¹¤ë¥¢¥»¥È¥ó¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥¢¥¸¥Ô¥ó»À¡¦¥¢¥»¥È¥óº®¹ç±Õ 50 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥ¢¥¸¥Ô¥ó»À¤ËÂФ¹¤ë¥¢¥»¥È¥ó¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥¢¥¸¥Ô¥ó»À¡¦¥¨¥¿¥Î¡¼¥ëº®¹ç±Õ 30 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥ¢¥¸¥Ô¥ó»À¤ËÂФ¹¤ë¥¨¥¿¥Î¡¼¥ë¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥¢¥¸¥Ô¥ó»À¡¦¥¨¥¿¥Î¡¼¥ëº®¹ç±Õ 50 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥ¢¥¸¥Ô¥ó»À¤ËÂФ¹¤ë¥¨¥¿¥Î¡¼¥ë¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥¢¥¸¥Ô¥ó»À¡¦¿åº®¹ç±Õ 30 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥ¢¥¸¥Ô¥ó»À¤ËÂФ¹¤ë¿å¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥¢¥¸¥Ô¥ó»À¡¦¿åº®¹ç±Õ 50 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥ¢¥¸¥Ô¥ó»À¤ËÂФ¹¤ë¿å¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥¢¥¹¥Ô¥ê¥ó(Ê´Ëö)
¥Ç¡¼¥¿¿ô¡§12
|
20 - 70 [¡î] |
¥¢¥¹¥Ô¥ê¥ó¡¦¥¢¥»¥È¥óº®¹ç±Õ 30 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥ¢¥¹¥Ô¥ê¥ó¤ËÂФ¹¤ë¥¢¥»¥È¥ó¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥¢¥¹¥Ô¥ê¥ó¡¦¥¢¥»¥È¥óº®¹ç±Õ 50 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥ¢¥¹¥Ô¥ê¥ó¤ËÂФ¹¤ë¥¢¥»¥È¥ó¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥¢¥¹¥Ô¥ê¥ó¡¦¥¨¥¿¥Î¡¼¥ëº®¹ç±Õ 30 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥ¢¥¹¥Ô¥ê¥ó¤ËÂФ¹¤ë¥¨¥¿¥Î¡¼¥ë¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥¢¥¹¥Ô¥ê¥ó¡¦¥¨¥¿¥Î¡¼¥ëº®¹ç±Õ 50 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥ¢¥¹¥Ô¥ê¥ó¤ËÂФ¹¤ë¥¨¥¿¥Î¡¼¥ë¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥¢¥¹¥Ô¥ê¥ó¡¦¿åº®¹ç±Õ 30 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥ¢¥¹¥Ô¥ê¥ó¤ËÂФ¹¤ë¿å¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥¢¥¹¥Ô¥ê¥ó¡¦¿åº®¹ç±Õ 50 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥ¢¥¹¥Ô¥ê¥ó¤ËÂФ¹¤ë¿å¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥¢¥»¥È¥ó
¥Ç¡¼¥¿¿ô¡§12
|
20 - 70 [¡î] |
¥¨¥¿¥Î¡¼¥ë
¥Ç¡¼¥¿¿ô¡§12
|
20 - 70 [¡î] |
¥·¥ê¥«¥²¥ë [NaCl%] [Ww/Ws]
¥Ç¡¼¥¿¿ô¡§64 R2 ¦Å'=0.9913, ¦Å''=0.9953 |
2.375 [GHz] - 2.375 [GHz] 20 - 90 [¡î] |
¥·¥ê¥«¥²¥ë [NaCl%] [Ww/Ws]
¥Ç¡¼¥¿¿ô¡§64 R2 ¦Å'=0.9975, ¦Å''=0.9981 |
2.375 [GHz] - 2.375 [GHz] 20 - 90 [¡î] |
¥·¥ê¥«¥²¥ë [NaCl%] [Ww/Ws]
¥Ç¡¼¥¿¿ô¡§64 R2 ¦Å'=0.9985, ¦Å''=0.9981 |
2.375 [GHz] - 2.375 [GHz] 20 - 90 [¡î] |
¥·¥ê¥«¥²¥ë [NaCl%] [Ww/Ws]
¥Ç¡¼¥¿¿ô¡§64 R2 ¦Å'=0.9999, ¦Å''=0.9981 |
2.375 [GHz] - 2.375 [GHz] 20 - 90 [¡î] |
¥¸¥ë¥³¥Ë¥¢Á¡°ÝÈÄ
¥Ç¡¼¥¿¿ô¡§30 R2 ¦Å'=0.8931, ¦Å''=0.9995 |
20 - 1400 [¡î] |
¥Ê¥Õ¥Æ¥ó»Àº®¹ç±Õ
¥Ç¡¼¥¿¿ô¡§8 Concentration 100ppm |
915 [MHz] - 2.45 [GHz] 24 - 35 [¡î] |
¥Ñ¥é¥»¥¿¥â¡¼¥ë(Ê´Ëö)
¥Ç¡¼¥¿¿ô¡§12
|
20 - 70 [¡î] |
¥Ñ¥é¥»¥¿¥â¡¼¥ë¡¦¥¢¥»¥È¥óº®¹ç±Õ 30 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥѥ饻¥¿¥â¡¼¥ë¤ËÂФ¹¤ë¥¢¥»¥È¥ó¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥Ñ¥é¥»¥¿¥â¡¼¥ë¡¦¥¢¥»¥È¥óº®¹ç±Õ 50 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥѥ饻¥¿¥â¡¼¥ë¤ËÂФ¹¤ë¥¢¥»¥È¥ó¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥Ñ¥é¥»¥¿¥â¡¼¥ë¡¦¥¨¥¿¥Î¡¼¥ëº®¹ç±Õ 30 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥѥ饻¥¿¥â¡¼¥ë¤ËÂФ¹¤ë¥¨¥¿¥Î¡¼¥ë¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥Ñ¥é¥»¥¿¥â¡¼¥ë¡¦¥¨¥¿¥Î¡¼¥ëº®¹ç±Õ 50 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥѥ饻¥¿¥â¡¼¥ë¤ËÂФ¹¤ë¥¨¥¿¥Î¡¼¥ë¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥Ñ¥é¥»¥¿¥â¡¼¥ë¡¦¿åº®¹ç±Õ 30 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥѥ饻¥¿¥â¡¼¥ë¤ËÂФ¹¤ë¿å¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥Ñ¥é¥»¥¿¥â¡¼¥ë¡¦¿åº®¹ç±Õ 50 [W%]
¥Ç¡¼¥¿¿ô¡§24 Ç»Å٤ϥѥ饻¥¿¥â¡¼¥ë¤ËÂФ¹¤ë¿å¤Î³ä¹ç |
2.45 [GHz] - 2.45 [GHz] 20 - 70 [¡î] |
¥Ý¥ê¥¢¥ß¥É-Ìʺ®¹çÁ¡°Ý
¥Ç¡¼¥¿¿ô¡§32 Ç»ÅÙ¤Îñ°Ì[W%] |
2.45 [GHz] - 2.45 [GHz] 15 - 120 [¡î] |
±Ç²è¥Õ¥£¥ë¥à(¼¾½á)
¥Ç¡¼¥¿¿ô¡§20 Ç»ÅÙ¤ÏW[g/m] |
2.97 [GHz] - 2.97 [GHz] 25 - 25 [¡î] |
¾øα¿å
¥Ç¡¼¥¿¿ô¡§14
|
5 - 60 [¡î] |
¿å(Àг¥´äÆþ¤ê)
¥Ç¡¼¥¿¿ô¡§12 Ç»ÅÙ¤ÏÂÎÀÑʬΨ[V%], R2 ¦Å'=0.9992, ¦Å''=0.9851 |
2.45 [GHz] - 2.45 [GHz] 25 - 25 [¡î] |
¥¢¥ë¥ß¥Ê(AL-300 modified Ì©ÅÙ: 3.771 g/cm^3)
¥Ç¡¼¥¿¿ô¡§28 Alumina: Western Gold amd Platinum AL-300 modified Density 3.771 g/cm^3 |
3.975 [kHz] - 8.5 [GHz] 25 - 881 [¡î] |
¥¢¥ë¥ß¥Ê(AL-500)
¥Ç¡¼¥¿¿ô¡§26 Aluminum oxide AL-500 Western Gold and Platinum(multicrystalline) Density 3.665 g /cm^3 |
10 [MHz] - 8.5 [kHz] 25 - 499.9 [¡î] |
Ãâ²½¥Û¥¦ÁÇ(Grade A Ì©ÅÙ: various not meas.)
¥Ç¡¼¥¿¿ô¡§10 Carborundum Grade A Density: various not meas. Field direct.: unknown |
300 [MHz] - 24 [GHz] |
Ãâ²½¥Û¥¦ÁÇ(Grade A Ì©ÅÙ: 2.091[g/cm^3])
¥Ç¡¼¥¿¿ô¡§6 Carborundum Grade A Density: 2.091[b/cm^3] Field direct.: ¢Ý |
300 [MHz] - 3 [GHz] |
Ãâ²½¥Û¥¦ÁÇ(Grade A Ì©ÅÙ: 2.097[g/cm^3])
¥Ç¡¼¥¿¿ô¡§6 Carborundum Grade A Density: 2.097[b/cm^3] Field direct.: mixed |
300 [MHz] - 3 [GHz] |
Ãâ²½¥Û¥¦ÁÇ(Grade HP Ì©ÅÙ: varopus not meas.)
¥Ç¡¼¥¿¿ô¡§12 Grade HP The Carborundum Company Refractories & Electronics Division Whirlpool Technical Center Niagara Falls N.Y. 14302 Density: various not meas. Field direct. unknown |
300 [MHz] - 24 [GHz] |
Ãâ²½¥Û¥¦ÁÇ(Grade HP Ì©ÅÙ: 2.033[g/cm^3])
¥Ç¡¼¥¿¿ô¡§6 Grade HP The Carborundum Company Refractories & Electronics Division Whirlpool Technical Center Niagara Falls N.Y. 14302 Density: 2.033[g/cm^3] Field direct.: ¢Ý |
300 [MHz] - 3 [GHz] |
Ãâ²½¥Û¥¦ÁÇ(Grade HP Ì©ÅÙ: 1.748[g/cm^3])
¥Ç¡¼¥¿¿ô¡§6 Grade HP The Carborundum Company Refractories & Electronics Division Whirlpool Technical Center Niagara Falls N.Y. 14302 Density: 1.748[g/cm^3] Field direct.: mixed |
300 [MHz] - 3 [GHz] |
Ãâ²½¥Û¥¦ÁÇ(Grade M Ì©ÅÙ: various not meas.)
¥Ç¡¼¥¿¿ô¡§8 Grade M Carborundum Boron nitride hot-pressed with silica Density: various not meas. Field direct. unknown |
300 [MHz] - 14 [GHz] |
Ãâ²½¥Û¥¦ÁÇ(Grade M Ì©ÅÙ: 2.137[g/cm^3])
¥Ç¡¼¥¿¿ô¡§6 Grade M Carborundum Boron nitride hot-pressed with silica Density: 2.137[g/cm^3] Field direct.: ¢Ý |
300 [MHz] - 3 [GHz] |
Ãâ²½¥Û¥¦ÁÇ(Grade M Ì©ÅÙ: 2.118[g/cm^3])
¥Ç¡¼¥¿¿ô¡§6 Grade M Carborundum Boron nitride hot-pressed with silica Density: 2.118[g/cm^3] Field direct.: mixed |
300 [MHz] - 3 [GHz] |
¥é¥ó¥¿¥ó¥¢¥ë¥ß¥Í¡¼¥È
¥Ç¡¼¥¿¿ô¡§124 Lanthanum aluminate (LaAlO3) single crystal (m.p. 1612¡î) Elec. field in [111] direction National Lead |
98.5 [Hz] - 494 [kHz] 25 - 500 [¡î] |
¥±¥¤»À¥Þ¥°¥Í¥·¥¦¥à(Frequenta M)
¥Ç¡¼¥¿¿ô¡§100 Magnesium orthosilicate(Frequenta M) Steatit-Magnesia Aktiengesellschaft |
47.9 [Hz] - 2.45 [GHz] 25 - 500 [¡î] |
²á»À²½Êª
¥Ç¡¼¥¿¿ô¡§20 USP 333 |
100 [Hz] - 8.5 [GHz] |
2 5-¥¸¥á¥Á¥ë¥Ø¥¥µ¥ó
¥Ç¡¼¥¿¿ô¡§22 2 5-dimethy1-2 5-di(t-butylperoxy)hexane |
10 [kHz] - 24 [GHz] 25 - 99 [¡î] |
¥Ó¥¹(1-¥Õ¥§¥Ë¥ë-1-¥á¥Á¥ë¥¨¥Á¥ë)¥Ú¥ë¥ª¥¥·¥É
¥Ç¡¼¥¿¿ô¡§22 DI-CUP |
100 [Hz] - 8.5 [GHz] |
1 4-¥Ó¥¹[(t-¥Ö¥Á¥ë¥Ñ¡¼¥ª¥¥·)¥¤¥½¥×¥í¥Ô¥ë]¥Ù¥ó¥¼¥ó
¥Ç¡¼¥¿¿ô¡§26 VUL-CUP |
100 [Hz] - 8.5 [GHz] 25 - 99 [¡î] |
²á»À²½¥Ù¥ó¥¾¥¤¥ë
¥Ç¡¼¥¿¿ô¡§16 Lucidol |
10 [kHz] - 8.5 [GHz] |
2 5-¥Ó¥¹(tert-¥Ö¥Á¥ë¥Ú¥ë¥ª¥¥·)-2 5-¥¸¥á¥Á¥ë-3-¥Ø¥¥·¥ó
¥Ç¡¼¥¿¿ô¡§24 Lupersol 130 |
100 [Hz] - 8.5 [GHz] 25 - 99 [¡î] |
Ç®ÇÞÂΡʥÀ¥¦¥µ¥à¡Ë
¥Ç¡¼¥¿¿ô¡§16
|
100 [Hz] - 10 [GHz] |
¥Õ¥Ã²½ÃºÁÇ¡ÊͶƳÂΡË
¥Ç¡¼¥¿¿ô¡§8 ¡¡ |
1 [GHz] - 14 [GHz] |
¥±¥¤ÁÇ(ñ·ë¾½ .2 [volts/cm])
¥Ç¡¼¥¿¿ô¡§12 Silicon crystal undoped Brown University Apparent properties of 1 cm cube sample with evaporated gold electrodes. Silicon single crystal .2 [volts/cm] |
100 [Hz] - 2.45 [MHz] |
¥±¥¤ÁÇ(ñ·ë¾½ .3 [volts/cm])
¥Ç¡¼¥¿¿ô¡§10 Silicon crystal undoped Brown University Apparent properties of 1 cm cube sample with evaporated gold electrodes. Silicon single crystal .3 [volts/cm] |
1 [kHz] - 2.45 [MHz] |
¥±¥¤ÁÇ(ñ·ë¾½ Radiation damaged)
¥Ç¡¼¥¿¿ô¡§18 Silicon crystal undoped Brown University Apparent properties of 1 cm cube sample with evaporated gold electrodes. Radiation damaged single crystal |
93.8 [Hz] - 1.03 [MHz] |
ú²½¥±¥¤ÁÇ(Norminal resistivity 35[ohm-cm])
¥Ç¡¼¥¿¿ô¡§8 Silicon carbide type attenuator materials Carborundum Norminal resistivity 35(ohm-cm) |
300 [MHz] - 8.5 [GHz] |
»À²½¥±¥¤ÁÇ(Y - cut plate silver paint electrodes)
¥Ç¡¼¥¿¿ô¡§36 Silicon dioxide natural quartz crystal Fort Monmouth Y - cut plate silver paint electrodes at 25¡î |
2 [MHz] - 3 [MHz] 25 - 25 [¡î] |
¾Æ·ë·¿Æó»À²½¥±¥¤ÁÇ
¥Ç¡¼¥¿¿ô¡§86 Slip-cast Brunswick Density: 1.957[g/cm^3] |
100 [Hz] - 8.5 [GHz] 25 - 500 [¡î] |
¥±¥¤»À¥Þ¥°¥Í¥·¥¦¥à (°µÊ´°µ: 76000 lbs./in.^2)
¥Ç¡¼¥¿¿ô¡§40 Composition: Magnesium silicate (Steatite ceramic) Firing Conditions Cone 14 approx. 1410¡ëC. Properties: Cream-white. d^25=2.6. Tensile Strength 8500lbs./in.2 Impact Strength - Charpy 1.8 ft. lbs./in.2 Compressive Strength 76000 lbs./in.^2 Flexural Strength 20000 lbs./in.^2 Hardness 7 Mohs scale Thermal Expansion Linear coefficient of 20-100¡ëC 6.9 x 10_6j 20-600¡ëC 8.7 x 10-6 Thermal Conductivity 0.006 cal./cm.^2/sec./¡ëC/cm. Softening Point 1450¡ëC. Thermal Stability 1000¡ëC. Thermal Shock Resistance: 20 or more cycles boiling to ice-water for rod 3/4 |
100 [Hz] - 2.45 [GHz] 23 - 85 [¡î] |
¥±¥¤»À¥Þ¥°¥Í¥·¥¦¥à (°µÊ´°µ: 80000 lbs./in.^2)
¥Ç¡¼¥¿¿ô¡§40 Composition: Magnesium silicate (Steatite ceramic) Firing Conditions: Cone 14 approx. 1410¡ëC. Properties: Compressive Strength 80000 lbs./in.2 |
100 [Hz] - 2.45 [GHz] 25 - 81 [¡î] |
¥±¥¤»À¥Þ¥°¥Í¥·¥¦¥à (°µÊ´°µ: 65000 lbs./in.^2)
¥Ç¡¼¥¿¿ô¡§36 Composition: Magnesium silicate (Steatite ceramic) Firing Conditions: Cone 14 approx. 1410¡ëC. Properties: Compressive Strength 65000 lbs./in.2 |
0 [Hz] - 10 [GHz] 0 - 85 [¡î] |
¥¹¥Æ¥¢¥¿¥¤¥È¥»¥é¥ß¥Ã¥¯
¥Ç¡¼¥¿¿ô¡§20 Chemical Name: Steatite ceramic. Composition: 48% sierramic talc 32% Edgar plastic kaolin 14% barium carbonate 6% magnesium carbonate. |
100 [Hz] - 2.45 [GHz] |
Æó»À²½¥Á¥¿¥ó (¥ë¥Á¥ë) (TAM TICON T-J T-L T-M) (Fired 6 hrs. at 1350¡ëC)
¥Ç¡¼¥¿¿ô¡§40 Composition Rutils form TiO2. Chief impurities SiO2 Al2O3. Firing Conditions: Oxidizing 1260¡ëC. |
100 [Hz] - 2.45 [GHz] 23 - 78 [¡î] |
»À²½¥Á¥¿¥ó¤È¥Ý¥ê¥¹¥Á¥ì¥ó
¥Ç¡¼¥¿¿ô¡§20 Titanium dioxide Titanium Alloy Mfg. Co. TAM Ticon T-J (89%) and polystyrene Bakelite XMS 4A-621 (11%). |
100 [Hz] - 2.45 [GHz] |
Çò±ÀÊì
¥Ç¡¼¥¿¿ô¡§22 From "Handbook of Chemistry and Physics" 26th Ed. Chemical Rubber Publishing Co. Light grey to brown transparent. d^25=2.76-3.00 Mohs scale 2.8. Spec. Heat 0.2061. Therm. Cond. 1.8 x 10^-3. Surf. |
60 [Hz] - 2.45 [GHz] |
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¥Ç¡¼¥¿¿ô¡§20 Composition: Practically pure silica |
100 [Hz] - 2.45 [GHz] |
¥°¥é¥ó¥É¥Þ¥¤¥«¤È¤ä¤ï¤é¤«¤¤¥¬¥é¥¹
¥Ç¡¼¥¿¿ô¡§20 MYCALEX #1364 GENERAL ELECTRIC COMPANY |
100 [Hz] - 2.45 [GHz] |
¥¬¥é¥¹(K2 Na2O Pb¤ò´Þ¤à)
¥Ç¡¼¥¿¿ô¡§20 CORNING GLASS #001 (Corning Lab. No. Gl) CORNING GLASS WORKS Soda-potash-lead silicate. PbO (ca. 20%). |
100 [Hz] - 2.45 [GHz] |
¥¬¥é¥¹(Na2O CaO¤ò´Þ¤à)
¥Ç¡¼¥¿¿ô¡§20 CORNING GLASS #008 (Corning Leb. No. G8) CORNING GLASS WORKS |
100 [MHz] - 2.45 [GHz] |
¥¬¥é¥¹(K2 PbO¤ò´Þ¤à)
¥Ç¡¼¥¿¿ô¡§20 CORNING GLASS #009 (Corning Lab. No. 9B) CORNING GLASS WORKS |
100 [Hz] - 2.45 [GHz] |
¥¬¥é¥¹(Na2O K2 ¥Ð¥ê¥¦¥à¤ò´Þ¤à)
¥Ç¡¼¥¿¿ô¡§20 CORNING GLASS #010 (Corning Lab. No. I64EC) CORNING GLASS WORKS |
100 [Hz] - 2.45 [GHz] |
¥¬¥é¥¹(Na2O K2 PbO)
¥Ç¡¼¥¿¿ô¡§20 CORNING GLASS #012 (Coming Lab. No. G-12) CORNING GLASS WORKS |
100 [Hz] - 2.45 [GHz] |
¥¬¥é¥¹(Cao ¥¢¥ë¥ß¥Ê¤ò´Þ¤à)
¥Ç¡¼¥¿¿ô¡§20 CORNING GLASS #171 (Corning Lab. No. 171RM) CORNING GLASS WORKS |
100 [Hz] - 2.45 [GHz] |
¥Û¥¦¥±¥¤»À¥¬¥é¥¹(Na2O K2¤ò´Þ¤à)
¥Ç¡¼¥¿¿ô¡§20 CORNING GLASS #704 (Corning Lab. No. 705BA) CORNING GLASS WORKS |
100 [Hz] - 2.45 [GHz] |
¥Û¥¦¥±¥¤»À¥¬¥é¥¹(Na2O¤ò´Þ¤à)
¥Ç¡¼¥¿¿ô¡§20 CORNING GLASS #705 (Corning Lab. No. 705AJ) CORNING GLASS WORKS |
100 [Hz] - 2.45 [GHz] |
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915 [MHz] - 5.8 [kHz] |
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¥Ç¡¼¥¿¿ô¡§44 1.291 g/cm^3 |
2 [GHz] - 40 [GHz] |
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¥Ç¡¼¥¿¿ô¡§8 2.45GHz |
25 - 200 [¡î] |
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¥Ç¡¼¥¿¿ô¡§8 2.45GHz |
25 - 200 [¡î] |
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¥Ç¡¼¥¿¿ô¡§8 2.45GHz |
25 - 200 [¡î] |
¥È¥ê¥á¥Á¥ì¥ó¥°¥ê¥³¡¼¥ë
¥Ç¡¼¥¿¿ô¡§8 2.45Ghz |
25 - 200 [¡î] |
¥×¥í¥Ô¥ì¥ó¥°¥ê¥³¡¼¥ë
¥Ç¡¼¥¿¿ô¡§8 2.45GHz |
25 - 200 [¡î] |
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¥Ç¡¼¥¿¿ô¡§8 2.45GHz |
25 - 200 [¡î] |
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¥Ç¡¼¥¿¿ô¡§18 2.45GHz |
25 - 225 [¡î] |
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¥Ç¡¼¥¿¿ô¡§15 2.45GHz |
-200 - 78 [¡î] |
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¥Ç¡¼¥¿¿ô¡§22 30¡î |
0 [GHz] - 5 [GHz] |
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2 [GHz] - 5 [GHz] |
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-200 - 75 [¡î] |
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1.06 [GHz] - 5.8 [GHz] 25 - 200 [¡î] |
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¥Ç¡¼¥¿¿ô¡§14
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25 - 200 [¡î] |
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25 - 200 [¡î] |
14-¥Ö¥¿¥ó¥¸¥ª¡¼¥ë
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1.06 [GHz] - 5.8 [GHz] 25 - 200 [¡î] |
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¥Ç¡¼¥¿¿ô¡§8 ¾ò·ïA¡Ê»îÎÁ¤ò120¡î¤ÎÅŵ¤Ï§¤ËÆþ¤ì¤Æ¿¿¶õ¾õÂÖ¤Ç24»þ´Ö²ÃÇ®¤·¡¢¤½¤Î¸å¼¼²¹¤Þ¤ÇÎäµÑ¡Ë |
1 [GHz] - 10 [GHz] |
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1 [GHz] - 10 [GHz] |
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1 [GHz] - 10 [GHz] |
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1 [GHz] - 10 [GHz] |
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¥Ç¡¼¥¿¿ô¡§18 30¡î |
0.5 [MHz] - 4.5 [GHz] |
¥¨¥¿¥Î¡¼¥ë
¥Ç¡¼¥¿¿ô¡§12
|
30 - 40 [¡î] |
¥¸¥á¥Á¥ë¥¹¥ë¥Û¥¥·¥É¿åÍÏ±Õ 10 %
¥Ç¡¼¥¿¿ô¡§14 Dimethyl Sulfoxide=10% |
300 [MHz] - 20 [GHz] |
¥¸¥á¥Á¥ë¥¹¥ë¥Û¥¥·¥É¿åÍÏ±Õ 20 %
¥Ç¡¼¥¿¿ô¡§14 Dimethyl Sulfoxide=20% |
300 [MHz] - 20 [GHz] |
¥¸¥á¥Á¥ë¥¹¥ë¥Û¥¥·¥É¿åÍÏ±Õ 33 %
¥Ç¡¼¥¿¿ô¡§14 Dimethyl Sulfoxide=33% |
300 [MHz] - 20 [GHz] |
¥¸¥á¥Á¥ë¥¹¥ë¥Û¥¥·¥É¿åÍÏ±Õ 40 %
¥Ç¡¼¥¿¿ô¡§14 Dimethyl Sulfoxide=40% |
300 [MHz] - 20 [GHz] |
¥¸¥á¥Á¥ë¥¹¥ë¥Û¥¥·¥É¿åÍÏ±Õ 60 %
¥Ç¡¼¥¿¿ô¡§14 Dimethyl Sulfoxide=60% |
300 [MHz] - 20 [GHz] |
¥¸¥á¥Á¥ë¥¹¥ë¥Û¥¥·¥É¿åÍÏ±Õ 80 %
¥Ç¡¼¥¿¿ô¡§14 Dimethyl Sulfoxide=80% |
300 [MHz] - 20 [GHz] |
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¥Ç¡¼¥¿¿ô¡§14
|
300 [MHz] - 20 [GHz] |
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¥Ç¡¼¥¿¿ô¡§10
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1 [GHz] - 10 [GHz] |
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¥Ç¡¼¥¿¿ô¡§12 ¥·¥¯¥í¥Ø¥¥µ¥ó´Ä¶²¼ |
1 [GHz] - 5 [kHz] |
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¥Ç¡¼¥¿¿ô¡§11 ¥Ù¥ó¥¼¥ó´Ä¶²¼ EtCO3: 1.00M |
2 [GHz] - 5 [kHz] |
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¥Ç¡¼¥¿¿ô¡§12 ¥Ù¥ó¥¼¥ó´Ä¶²¼ EtCO3: 0.50M |
1 [GHz] - 5000 [GHz] |