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1. lt Next Start Experiment Conduct Experiment Next Next Start Experiment 2 Next Next 3 Cell constant and temperature calibrations involve heating high purity metal standard e g indium through its melting peak using the came ramp rate purge gae and pan typo that will be used for subsequent experiments Far the most accur2. LNCS tH Mee 11 Run Status Bar Fun TComplete Temp 27 23 c LP ej DFA E Experiment View Pane E QSeries Q2000 pp02 qnx DSC Q2000 E ng Support 8g SH EE Run 3stanaby Temp39 93 c Experiment Method Time 0 00 min Segment Time 0 00 min Ib Remaining Run Time 0 min E Temperature 39 93 C Heat Flow 0 045 mw Heat Capacity 0 000 mJ C i 40 00 C 0 018 w Flange Temperature 40 23 C Heater Temperature 40 73 C Sample Purge Flow 49 97 mL min mW mw EN c Vr m Heat Flow n2 ce Po c Heat Flo c c e co 0 100 125 150 175 200 t Equilbrate at 30 00 C 0 80 1 00 1 10 1 20 1 30 1 40 1 50 1 60 1 70 1 80 1 90 2 00 2 Ramp 10 000 C min to Temperature C 3 4 Temperature C 12 Xu Bil B Summary Summary Procedure Notes r Procedure Summary Mode Standard Y i i aa aa Ris
3. 400C 27 RCS 30 28 Fuses Cords and Cables Part Number Description 205221 001 Fuse 6 3 amp 250 V 205221 002 Fuse 10 amp 250 V 205224 035 Fuse 0 75 amp 250V Slo Blo for 230V 50Hz RCS 205224 039 Fuse 1 0 amp 250V Slo Blo for 120V 60Hz RCS 251470 025 Ethernet cable 7 7m 25 foot shielded 253827 000 Power cord 120 V Q10 Q100 Q1000 RCS 270469 001 Power cord 220 V RCS 920223 901 Event cable DSC Cells Lids and Accessories Part Number Description 910824 001 Cell cleaning brush 970020 901 Removable cell Q2000 01000 970520 901 Fixed Cell Q200 Q100 Q20 Q10 AQ20 Service installation req
4. Cell 1 DSC Mode Auto QQ 20H D Conon n Heat Flaw T Heat Flow TI Conon v o with standard cell Heat Flaw T4P Heat Flow T4 Heat Flaw TI pnm with pressure coll Cell Temperature Raselme Pressure Constant MDSC QOO gioii S pew te w Se as a ee a ae E ae ae ee ee NE NENLNELIN SIE LAE 24 4 Q2000 MA 2 5 32 3
5. 10 e HS eres Q2000 pp0 gnx DSC Q2000E ng Support Control Experimental Calibrate Toole View Window Help z jej x eS0 NDE Rt NEBA di A AA a Ce Run 1 standby Temp 176 98 C Experiment Summary Procedure t Notes Standard Sequence Procedure Summary Remaining Aun Tome Mode Ja E Temperature Test som rm Method Time Segment Time Sample Information Heater Power Sample Marne Flange Temperature 1 Heater T emnerah ire ha Pan Type Tero Aluminum ESE Bunning Seament Sample Size 0 000 mg PanNo 1 Rel Pan Mass Reference Comments Data File Mame MENGSUPPORT 7 wxPATAND ataD SPD ata 013 a Network Drive z g 00 O 1 00 150 2 00 01 aor min Eu peer _ Hep Temperature C Ready EESTI Standard Seg inRun 1 08 29 00 4 vel Calibration r Platinum Tool Bar Bi wi A A ES 9 d D qo Hebe ig ig
6. 3 25 Quench Cooler QCA T1 Heat Flow Quench Cooler EC Finned Air Cooling System Thermal Enclosure FACS QCA RE mE im 725 C Stand Alone QCA 180 550 C Error Help 4 View Instruments Log Instrument Log 1 000 0026 DSC 1000 Dsc Mfg Error Help Clear Log Configure Save Close Help DSC LNCS RCS Signal Window 3 DSC 60 lt 70
7. 100 1 Control Shut down Shut down 2 shut down OK 3 30 C 30
8. A BASE PURGE BIZ LNCS RCS QCA 15 20PS1 0 1 0 14Mpal1 1 4 kgf cm2 300 lt 350 mL min 1 8 Gas 1 Gas 2 15 20PSI1 0 1 0 14Mpal1 1 4 kgffcm2 50 mL min LNCS 100 25 mL min 118 FACS 25 120PSI 0 17 0 84MPa 1 75 8 43kgf cm2 1 4 2 D 100 V 120 V 15 A D DSC 30 RCS LNCS D z D E ne ISJAM g y NESET ETWERHET DSC RCS LNC
9. Standard Sequence Run No 4 Run Run Run ARun Run Delete Sequence 4A 4 Stop Select Stop Option to Terminate Autosampler Sequence in Progress Immediately 17 DSC 8 Calibration Calibration Wizard DSC Q2000 Q200 ed LSD 1 DOC Mg E x DSC Caratinn should be
10. ACell Constant Temperature REE T Next Start Run Finish emu ctae cs LET RASH 5 1 22 Fram tiles 1 50 setup puro 0 90 1 00 1 10 1 20 1 30 1 40 159 O 1 70 1 20 1 90 2 00 Close Heat Flaw mW Calibration TypeQ1000 0303 DSC 01000 Mfe dsc NEN Open File C Ba see Gell Constant Temperature Select Type Baseline Cell Constant Temperature Standard Name Melt Point C SSS 38 83 11 Analyze Edit Cancel Help Open taile Select Type Limits Ok Manual Cancel Setup Print
11. Limit OK Accept Q20 Q2000 Q200 T1 Heat Flow 23 Calibration Cell Temperature Table Cell Temp Table Q1000 0303 DSC Q1000 Mfe dsc Cell Calibration Temperature Standard DSG Gell Cell Calibration Standard DSC Cell Gell Constant 0255 ACell Constant Onset Slope 233206 mW Cp Constant Direct 0 938 AOnset slope Op Constant Total Op Constant Reversing me pg _ ACp Constant direct Q1000 efe RUSSES o 0S EE OD s Cell Temp Table Q1000 0303 DSC Q1000 Mfe dsc Cell Calibration Temperature Calibration Table Point 1 Point 2 Point 3 Point 4 Point 5 MDSC Observed Temperature C 0 00 0 00 0 00 0 00 Correct Temperature C ACp Constant Total 6660 Total heat flow 0 00 0 00 0 00 Reversing heat flow 0 00 ACp Constant Reversing Temperature _ Cancel Apply Help Calibration Table
12. Calibrate Calibration Primary Function Keys Control Menu mm mmm mmm Lid Open Closed Fanlrm xat oe Contral Command Complete zt SP Reset Autoasampler Pere ar MEOW actadh So mnc ee Load Drop down list Unload Air Cool Shutdown Command gt Lid Open Close lt Reset Autosampler FP Unload BEES I Load A ps ped N Unload reference Apply eT Switch Gas Gas1 2 UM amp Air Cool 224 On Off Park Autosampler Go To Standby Temperature LNCS LNCS RCS RCS On Off Reset Saved Parameters S Shutdown Display Menu Segments Information IP Status Signals Plot Screen Saver A Home
13. Update Modul Software RE Sand Fort Files Sent Pm gran Betun Dee rrr rt License Fit Fe hr map mw seen wsd Instrument Settings x Name asco Serial Number 0500 IPP02 Location Eng Support LAN Apply DSC IP Address 172 23 160 Net Mask 255 255 224 0 Default Gateway 0 0 0 0 PC Apply New Settings lt Back Cancel Help Stop Stop Start Network I Tools Instruments Preference Instrument Preferences MFC Puree LCD Signals Touch Screen DSC Cooler Auto Sampler Gas 1 Nitrogen m Gas 2 Nitrogen iw Stop experiment when flow rate deviates from the set value Method Time Seement Time Remaining Run Time Temperature Heat Flow Heat Capacity
14. Next Start Experiment Next Analyze Next Finish Procedure Summary Mode Calibration Stand red Modulated 20 ACell Constant amp Temperature Calibration 1 Cell constant and temperature calibrations involve heating a high purity metal standard e g indium through its melting peak using the same ramp rate purge gas and pan type that will be used for subsequent experiments For the most accurate resums calibration should be done with the highest level heat flow signal available in the instrument 1 Remove sapphire samples from cell 2 Select calibration standard for cell constant calibration Ss NTS ae 000 0o Pan Type Aluminum Hermetic OO F Pan Mass mg Sample b 000 mg Reference 3 Place sample pan containing standard
15. Type name Advanced Parameters Advanced Parameter Data Sampling Interval o1 sec pt 20 00 to 30 00 B x ep ly Load Temperature Range A Data Sampling Interval DSC 0 2 MDSC 1 0 ALoad Temperature Range L Ax AE zn Ax AE Post Test Parameters Post Test Parameters Method End Conditions Method End Conditions A Temperature Range Temperature Range A Delay Time ALNCS Autofill LNCS LNCS On OFF A Event RCS Control Unchanged RCS EVENT A Discard pan in waste bin Delay Time LNCS Autofill F Event ROS Control Unchanged Notes ee r
16. Calibration Standby 37 95 C f Touch Screen li Autosampler Q20 W Auto Q20 LAN IP E Tools Instrument Setup 4 Instrument Setup Wizard Q1000 pp02 DSC Q1000 Eng Support X Next Welcome to Instrument Setup Wizard The Wizard can be used to do following tasks 1 Synchronize the real time clock 2 Reset instrument 3 Select lanquage 4 Download the software to instrument 5 Setup environment variables Instrument serial Number fi 000 PP02A Instrument Identify MAC 00 C0 6C 74 35 10M Adjust Current PC Time fi 3 58 07 Tuesday Aug 12 2003 EST Adjust Current Instrument Time fi358 07 Tuesday Aug 12 2003 EST Synchronize Select lanquage English z Set lt Back Cancel Help Synchronize Drop down
17. Next Analyze Next Finish Procedure Summary Mode Calibration Stand red Modulated 21 T1 Heat Flow Conventional DSC Experiments Q1 000 0026 DSC G1 0009Dsc Mfg E Select the type of DSC calibration experiment you wanter Te rform Baseline This calibration compensates for subtle differences between the reference and sample thermocouples The baseline calibration is based on heating an empty cell through the same temperature range that will be subse quent experiments Baseline calibration is recommended any time the heating cooling rate purge gas or cooling accessory is changed C Cell Constant Tamperature Cell Constant is a calibration factor used to adjust for subtle differences in the calorimetric response of a DSC cell Temperature calibration ensures that the sample thermocouple reading is correct under the conditions chosen Both of these calibrations are performed based on the melting peak of a standard metal such as indium Th
18. Modulated Sample Information eae Sample Name na 3 Sample Size 0 000 x Fe lle He Pan Mass lpooo ug mole 4 830 ma CBeference Comments Data File Name Lab sote c ta Data DSC ilm T Archive Enable S T4P Sample Reference Autoanalyze m Pan No Ref Non Analysis Macro Y L Run No 02 Test Drop down Custom Custom Procedure Summary Made Standard Test cs Ramp Heat Cool Heat Cyclic Isothermal Oxygen induction time Cel Cooler Conditioning Ramp Heat Cool Heat Cyclic 13 Procedure Procedure Information Qj Test Custom im Notes Method Name No 3 aging Editor SegmentDescripion a Advanced 1 Bj External event On 2 Eauilibrate at 20 00 C Post Test 3
19. Set Point Temp ViHeater Power ee eee Select up to 6 signals for display Transition Direction C Exotherm Down Exatherm Up Heat Flow Selection Heat Flow T4 mW Standby Temperature 40 00 PCA Operation Enable Diagnostic Signals Instrument Preferences MFC Purge LCD Signals Touch Screen DSC Cooler Auto Sampler Cooler Selection ROS v V Activate secondary purge when lid is opened RCS and LNCS only Between Runs lw Leave ROS On I Leave LNCS On OK Cancel Help MFC Purge AGas 1 Gas 2 MFC A Stop experiment when flow rate deviates lt LCD Signals DSC 4 A Heat Flow T1 T4 T4P T1 T4 T4P T1 Ta AStandby Tempe
20. TA Differential Scanning Calorimeter eR Getting Started Guide Temperature Range With FACS Room Temperature 725 C Pan Type Aluminum Use 600 C With QCA 180 550 C With RCS 90 550 C With LNCS 180 550 C Ver 4 1 Table of contents 4 En 6 CS eA RCAC 6 Display Menyedia sanaan a Fenaa aS dudo EERE ON dpt 7 SAO EU E eee eee 7 ara 7 0 scree cece UU ST 8 RP ROT tN eR A 8 A pA E ee cee duda ee ee eae 9 RXRO7O 7 Ti 11 ooo 13 bz 2242 M A A A A A A A A A n unene 16 oe NER 17 oco EREIIRIEN 18 000 DOO Rote eee ner e A E rt ate ee E ere 18 TATAP EA wT oT EE MA RE REN er Pace LEA E LEA SE EE 18 Te Ae OV E I I te UL T ML 22 MM EE 23 PUER SI I ESQ OL LS VL SLT 24 a RE EE EE eS EN Ee EE 24 ae 25 Q2000 SI 25 RCS LNCS FACS Thermal Enclosure H3U 4117 eere 25 v E 26 26 RR E 27 Pp Ne 27 EE 28 ELL 29 1 MFC
21. Isothermal for 15 0 min 4 Ramp10 000 C min to 140 00 C 5 Isothermal for 2 0 min 6 p Ramp 10 000 O min to 20 00 C v Method Editor Method OO Method Contents Name Heaton calibration el al Segment list xao t Equilibrate Segment Description J Initial temperature 1 C Sampling interval 1 0 sec gt E Ramp 2 Data storage Off i isothermal 3 t Equilibrate at 400 00 C E Isotrack 4 Isothermal for 5 0 min F Step 5 r Equilbrate at 90 00 C P Increment temperature 6 Daia storage On 5 Repeat gt Isothermal for 5 0 min Repost uni 8 4f Mark end of cycle 1 a ama mem a g F Ahar next senment nn ns di 4 cne Procedure eol Procedure Procedure Editor Advanced Post Test zn Ax AE zn Ax AE LO Sr tHe pk e Method Method Segment list Type Segment Description Segment Description
22. Hermetic Alodined Pans Tzero Series Sample Pans and Lids Part Number Description 901670 901 Tzero Low Mass Pans Pkg of 100 901671 901 Tzero Aluminum Lids Pkg of 100 901683 901 Tzero Pans Pkg of 100 901684 901 Tero Hermetic Lids Pkg of 100 901697 901 Tzero Hermetic Alodined Pans Pkg of 100 901698 901 Tzero Hermetic Alodined Lids Pkg of 100 Standard Series Sample Pans and Lids 900578 901 Platinum pans Pkg of 10 900786 901 Aluminum pans Pkg of 200 900779 901 Aluminum lids Pkg of 200 900793 901 Aluminum pans hermetic Pkg of 200 900794 901 Aluminum lids hermetic Pkg of 200 900860 901 Hermetic lids with Pinhole Pkg of 50 900796 901 Coated aluminum pans hermetic Pkg of 200 900790 901 Coated aluminum lids hermetic Pkg of 200 30 900870 901 Aluminum pans for SFI samples Pkg of 200 900867 901 Copper pans Pkg of 200 900866 901 Gold pans Pkg of 10 900868 901 Gold lids Pkg of 10 900871 901 Gold pans hermetic Pkg of 10 900872 901 Gold lids hermetic Pkg of 10 900874 901 Graphite pans Pkg of 10 900873 901 Graphite lids Pkg of 10 900825 901 High volume pan kit includes metal bell jar amp lid dies set pans lids seals 900824 901 High volume pan die set 900825 902 High volume pans lids amp seals 100 of each 900808 901 High pressure pan kit includes metal bell jar amp lid crimping tools reusable SST capsules 5 amp seals 20 900814 901 High pressure capsule seals Pkg o
23. Notes Operator Pan Type Extended Taxt r Mass Flow Control Settings Sample i1 Nitrogen Flow Rate 50 01 Summary Procedure Notes Apply 6 Apply Apply Apply 15 1 30 C 500 C 20 C min 1 Equilibrate30 C 2 Ramp 20 C min to 500 C 2 100 10 400 C 5 C min 10 100 C 5 min 1 Equilibrate 100 C 2 Isothermal 10 min 3 Ramp 5 C min to 400 C 4 Isothermal 10 min 5 Ramp 5 C minto 100 C 3 150 10 100 C 5 C min 1 Equilibrate 150 C 2 Isot
24. S 30 3 4 m TA Instrument Explorer 8 DSC 5 Q2000 Q200 Status Line Status Line Primary Function Keys Start Stop Control Control Menu Display Display Menu
25. ate resulte calibration Should b dore with hep highest Kerl Feat flow Digia inea mu tha irestrurment 1 Arrow MFP sampkg from coi 2 Select calibration standard for call constant callbration ccs ENE vin boo 0 F Pen Mess DOO 5 5 matemo POO Sg Reference 3 Phot smoke pan containing Starda on front platform in call 4 Place reference pan an back platform in call Post Test lt PBC w gt Ad x BO 01009 Desc Mfg F Conduct experiment 1 Enter the desired test parameters for cell constant and temperature calibration Start Lee currant Premak ro0 00 ee Heating rate omo Om Final temperature feo EL Data File Name WWLatrsotecWtaWDetaVDSCWqO05 t Ope rater TALI Purge Gas ui Margen Fow Rate bo mL min 2 Cover Cell Enter existing Gell Constant data file o Eost Test lt B seve ad LSD 1 QOOOLDSc Mig Constant B Tanger ature Career indum Sisndard Hest 20 7100 Aig indum Meting Point SE Cell consbani caeai 10834 Grial Sepa Oe nC SS L 1100 1200 Anahze Eee w3 T4P Next
26. dquent experiments ane changed 3 Cell Constant amp Temperature Calibration Cell constant is a calibration factor used to adjust for subtle differences in the calrimatric response of a CSC cell Temperature calibration ensures that tha sample thermocouple reading i comect under the experimental c di zd Esc EL ae then calibrations aec rtrd on te miltirug pror peak o These calibrations should be parori any time that the bestiag coolg sll puris gas or cooling accessory are changed ACell Constant amp Temperature Calibration C Load Saved Gell Resistance amp Capacitance Calibration Fille to Instrument This option allows x to send a saved cell reaistance egi capacitance Teak calbration nesulte file to the instrument ALoad Saved Cell Resistance 18 ACell Resistance amp Capacitance Cell Constant and Temperature Calibration at 3 1 OCC6 OSC Q1000005c Mfg Cell resistance amp capacitance calibration involves two experiments The first experiment involves heating an empty cell through the widest temperature range that will be used In subse quent experiments F Cd luct experim
27. ent 1 Remove pans from cell and cover cell 2 Enter the desiretNest parameters Lower temperature wi Upoer temperature 400 08 Ramp rate 20 000 C mir Operator TAI Dota Fie Nome Latr sotec ta Data DSC Wal ft Purge Gas 1 Nitogen Fow Rate Eo mL min Bere mum gt een wa 2 0 OO26 OSC I 000 Osc Mfg xj The second calibration experiment involves heating the cell with two equal weight sapphire disks on the sample and reference platforms through the entire tempersture range under the same conditions as the previous experiment The sapphire disks are placed directly on the cell platforms le no sample pans are use FH Conduct experiment 1 Place sapphire 1 on sample platform in call 2 Enter weight of sapphire 1 MINI mg 3 Place sapphire 2 on reference platform in call 4 Enter weight of sapphire b 000 mg 5 Cover call 6 Sapphire Data File Name WLab sotec ta Data DSO q00S postos lt ra xw e Au 0 0340 66 0 B3 IIEPLIl f I E Soom EN a pet s m 5 Sn 0080 ld a0 5 a z 9 0060 460 E 2n E E Z Foza 380 360 ry SS ee ee eed E Sj T 4600 000 540 nn SO 1000 1500 2000 2500 3000 3600 ani io soho Sample temperatum C ae complete Calibration suts successfully saved to instrument w and 19
28. ese calibrations should be performed any time that the heating cooling rate purge gas cooling accessory or pan type is changed 1 0 1 puris RNC CES Qui iv on 28 20 000 CZmin 300 00 65 me OS ww sz Vi CLS sg he DSC Q DSC v GA GR CORP E REN IAN SEL COE M YS DUITEN Casa EACE S eve A Baseline A AZ4L708 1E
29. f 20 900815 901 High pressure SST capsules Pkg of 5 Calibration Reference Materials Part Number Description 915060 901 DSC DTA Temperature Calibration Kit 915061 901 Replacement certified Indium reference material for above kit 900902 901 Indium Calibration Material 900910 901 Tin calibration material 900907 901 Zinc calibration material 970345 901 Tzero sapphire calibration kit 970370 901 MDSC sapphire calibration kit 915079 901 Sapphire Specific Heat Material 899096 901 Anisic Acid 1 g 899097 901 Biphenyl 1 g 900319 901 DSC Oxidative Stability Calibration Kit l
30. hermal 10 min 3 Ramp 5 C min to 100 C 4 RCS Event RCS Event Event RCS 50 10 100 CET 2 C min RCS Post test parameters Event Control Unchanged 1 External Event On 2 Equilibrate 50 C 3 Isothermal 10 min 4 Ramp 2 C min to 100 C 5 External Event OFF 16 50 5 Summary Procedure t Notes LU 9 Messaging m Procedure Summary Mode Standard 3 Test Custom E a Sample Information Sample Name Pan Type Tzero Aluminum bd Sample Size nm mg Pan No 4 Ref E PanMass 0 000 RESTE 0 000 mg Reference 9 Sample Append Sequence Run Comments PO Run Sample Ref No Pan No Network Drive
31. on front platform in coll 4 Place reference pan on back platform in cell Eost Test AWS Conduct experiment 1 Enter the desired test parameters for cell constant and temperature calibration Start Use current Premelt f 00 00 Heating rate ooo Cm fso 00 T Final temperature Data File Name uabrsotecwtaVDatayDSGwa005 ol Operator TAlJ Purge Gas 1 Narogen Fow Rae fo mL min 2 Cover Coll Enter existing Cell Constant data fae al Becr meg ox eee od Heat Flow mW Cel Constit 5 Tamearehre CTT ivan Standard Heat 20 7100 fg Khan Mebng Port 15680 C Cel constant Calibration 1 0889 Cece Skee 51 06 ni C 7 450 1300 4100 1500 3 00 1700 3 060 190 Temperature C is is complete Select Analysis from popup menu to change analysis range Press Next to save calibration and rd results to the instrument arae lt Eo ome ten ans E 010008Dsc Mfg 7 x T4P Next Next Start Experiment
32. performed using the same conditions purge gas sample pari type and cooling accegeoru that wil by used in subeeouaent experimente on your ssmple moter In addition the calibration seguen performed apps on the tye of heat flow that will be stored in your sample experiments Selection of the highest level haat flow for your G Seres GSC ls recommended Heat Plow Signals A Heat Flow Signals T1 TA TAP A Cooling Unit reat Fw TAR Ge Heat Fw Ti mW Heat Fow TA SD FACS RCS QCA LNCS Cooling Unit Quench eaaler LANES seve and TA TAP Heat Flow xj A Cell Resistance amp Capacitance nia oar EE fo rab cometuni er Dae from epar cf the caltration options S Sample Reference Tf your instrument i amp equipnad with an autosampler it will ba di amp sabled during see calibration MAS e Eel Pesietance amp Cacacitence Cell Constant and Tegeefatune Calibratio Cell ener and conacitance calibratian eomperes for sube dieren in thermal nitro and capacitance between the mfemnon and sample platforms in tha LGC sensor The callbratinn ls based on two experments one nun wkh an empty cell and tha second run with equal weight gapphire disks on the sampe and reference platform The calibration r amp recommended any time the purge gas or cooling accessory vend in subco
33. rature Control Go to Standby Temp APCA Operation PCA A Enable Diagnostic Signals Cooler 4 A Active secondary purge when lt Between Runs ALeave RCS On ALeave LNCS On Run RCS LNCS On A Autofill LNCS if below 9 LNCS Instrument Preferences Sequence Stop Options Unload pans RCS Event Off LNCS Off Error Handling C Halt on error Recover on error Enable autosampler auto advancing to the next run Autosampler Sequence Stop Options A Unload pans ARCS event Off Event ALNCS Off LNCS Error Handling A Halt on error A Recover on error Run A Enable autosampler
34. uired 970045 901 Removable cell thumb screw Q2000 Q1000 970132 001 Cell plate gasket 970464 001 Upper lid Auto Lid II Q200 Q2000 970442 001 Inner lid Manual Q20 Auto Lid II Q200 Q2000 970283 001 Outer manual lid Q10 Q20 970284 901 Manual cell cover Q10 Q20 970291 001 Inner lid Auto Lid I Q100 Q1000 970292 901 Auto cell cover Auto Lid I Q100 Q1000 Auto Lid II Q200 Q2000 970294 001 Auto lid clamp Auto Lid I Q100 Q1000 970295 001 Auto lid clamp spring Auto Lid I Q100 Q1000 970003 901 Mass Flow Controller Upgrade Kit for Q10 Q100 Includes Field Service installation 271580 001 Curved tweezers 271244 001 Auto lid bias spring Auto Lid I Q100 Q1000 Auto Lid II Q200 Q2000 29 Autosampler Accessories Part Number Description 971126 901 Autosampler sample pan tray 971012 901 Autosampler dust cover 971081 901 Autosampler cell calibration fixture 971092 001 Autosampler sample waste bin container Tzero Sample Encapsulation Press Part Number Description 901600 901 Tzero Sample Press Kit Includes the press the 4 die sets given below and box each of Tzero pans PN 901683 901 and Tzero Aluminum Lids PN 901671 901 901608 901 Replacement Die Set for Standard Series Pans 901608 902 Replacement Die Set for Standard Series Hermetic Pans 901608 903 Replacement Die Set for Tzero Series Aluminum Pans 901608 904 Replacement Die Set for Tzero Series Hermetic Pans and Tzero Series
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