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2015-2016 Specifications v021 en 100%

  Word definitions BB Bottom bracket GM Grommet BC Brake cable HB Front hub BCC Battery cable HP Head parts BCR Battery charger HRB BH Disc brake hose I-spec BL Brake lever ID CI-DECK BM Battery mount JC Junction BR Brake caliper LP Light BTC Battery case MF Multiple freewheel BTH Battery holder MU Motor unit BTR Battery O.L.D.

https://www.pdf-archive.com/2015/08/14/2015-2016-specifications-v021-en/

14/08/2015 www.pdf-archive.com

LES GESTES OFFICIELS DE LARBITRAGE EN VOLLEYBALL 96%

Lever les avant-bras en avant et en arrière et les tourner autour du corps.

https://www.pdf-archive.com/2018/05/14/les-gestes-officiels-de-larbitrage-en-volleyball/

14/05/2018 www.pdf-archive.com

NEXUS SG-8C20-Werkstatthandbuch 92%

BR-IM70-R SG-8R25 Roller Brake Premium version FC-NX60 33/38T SG-8R20 FC-NX80 Roller Brake HOLLOWTECH Crankset SG-8C20 Coaster Brake SG-8R25-VS SG-8R20-VS V-Brake 4 Small Parts Set BB-UN25 BL-IM65 ST-8S20 3-finger Brake lever 3-finger Brake lever BL-IM60 SL-8S20 SB-8S20 4-finger Brake lever 4-finger Brake lever Lay_INTER-8_GB 05 23.12.qxd 23.12.2004 13:39 Uhr Seite 5 • Better Sealing SG-8R25 Premium Version for Roller Brake SG-8R20 Roller Brake Version SG-8R25-VS V-Brake Version SG-8R20-VS V-Brake Version SG-8C20 Coaster Brake Version The INTER-8 hub has adopted a labyrinth seal system that shuts out water and dirt to extend the service life and maintain smooth shifting in all circumstances.

https://www.pdf-archive.com/2015/12/19/nexus-sg-8c20-werkstatthandbuch/

19/12/2015 www.pdf-archive.com

Pedal Adjustment 91%

4) Remove the snap pins from clevis pins which secure the lever to the push rod and operating rod.

https://www.pdf-archive.com/2017/10/12/pedal-adjustment/

12/10/2017 www.pdf-archive.com

SpeedyByCasmaPriceList2017 91%

15440 15441 15502 SAA 15514 SSS 15524 SSS 15604 Duo 15604 PSS 15604 SSS 15605 Duo 15605 PSS 15605 SSS 15607 ISS 15607 PSS 15607 SAA 15607 SSS 15607 SSS single 15608 SSS 15623 SAA 15625 ISS 15625 SAA 15810 ISS 15810 PSS 15810 SAA 15810 SSS 15815 PSS 15815 SAA 15815 SSS 15820 ISS 15820 PB 15820 PSS 15820 SAA 15820 SSS 1602 1603 1604 1605 1607 16090 SAA 16190 SAA 1702 1702B 1703B 1704 1704B 1705 1705B 1707 1707B 1712 1714 1715 1717 1718 1719 1722 1724 1725 1727 1732 1734 1735 1737 1802 1804 1805 Item Name Claustra Lock Strike (Jamb) Flat plate for Claustra/Quadra Bottom Lock Shoot Keep SAA LSK for 14700 LSK for 14600 Lever/Lever Handle Duo Lever/Lever Handle PSS Lever/Lever Handle SSS Lever/Lever Handle Duo Lever/Lever Handle PSS Lever/Lever Handle SSS Claustra Lever Handle ISS Claustra lever handles PSS Claustra lever handles SAA Claustra lever handles SSS Single Lever Handle SSS Lever/Lever handle SSS Door Knob SAA Door Knob ISS Door Knob SAA Quadra Strike Box ISS Quadra Strike Box PSS Quadra Strike box SAA Quadra Strike box SSS Quadra Strike box PSS Quadra Strike box SAA Quadra Strike box SSS Claustra Strike Box ISS Claustra Strike Box PB Claustra Strike Box PSS Claustra Strike Box SAA Claustra Strike Box SSS Covers for 065/066 SAA Covers for 065/066 DBA Covers for 065/066 SSS Covers for 065/066 PSS Covers for 065/066 Pol Brass Push on lock SAA finish LSK for 16090 Covers for 071, 077 &

https://www.pdf-archive.com/2017/04/03/speedybycasmapricelist2017/

03/04/2017 www.pdf-archive.com

IRITS-0516-053-Pneumatic Assembly Tools For General Industry 88%

4 A A L S 011 N P Q S = Inline M = Motor where N = 1/4” NPT B = 1/4” BSP P = Standard Gearcase F = Flanged Gearcase P 1 S 10 S 1 ( ) ( ) D B 1 A W S IC torque 1 isDhigher1 tapping Lthan = Lever final torque.

https://www.pdf-archive.com/2017/03/24/irits-0516-053-pneumatic-assembly-tools-for-general-industry/

24/03/2017 www.pdf-archive.com

katalog 86%

2011 Data– proces &

https://www.pdf-archive.com/2016/10/18/katalog/

18/10/2016 www.pdf-archive.com

HT60 installation guide 86%

Package Contents:    Package of hardware that has two (2) short screws, three (3) long screws, seven (7)  hex‐head nuts, one (1) flat washer (that is only used when installing the stock on the  model 795)   5/16 Allen wrench   Locking pin (and the small roll pin)   Lock ring   Castle nut      Lock lever     Pistol grip mount (make sure you have a left and a right side)     Pistol grip     Butt stock     Telescoping tube     Receiver portion of the stock     Swivel end     Magazine port plug     Adjustable Picatinny Rail Forearm         Stock Assembly  1.

https://www.pdf-archive.com/2017/04/12/ht60-installation-guide/

12/04/2017 www.pdf-archive.com

Panel 1 85%

1hr       Self weight of slab m m mm 2 N/mm 3.6 KN/m 2 1.2 KN/m 2 1 KN/m 2  cover Fire resistance OK 5.8 KN/m2 gk 3 KN/m2 qk 12.92 Design load [1.4gk +1.6qk] DESIGN MOMENTS AND REINFORCEMENTS 1.659 Aspect ratio of slab SHORT SPAN [SUPPORT] 0.084 Support moment coefficient 10.738 Support moment 124 Effective depth of beam , [d] M 0.0279 K bd2 fcu 0.95 Lever arm, z, 117.80 KN/m2    n 20 mm 2 5.8 KN/m 2 3 KN/m 2 12.92 KN/m  Table 3.14 Table 3.14 3.4.4.4 3.4.4.4 3.4.4.4         Area of steel required, As   Minimum reinforcement area SHORT SPAN [MIDSPAN] Table 3.14 Table 3.14 Midspan moment coefficient Midspan moment Effective depth of beam , 3.4.4.4 3.4.4.4 3.4.4.4 BS8110 REF Table 3.14 Table 3.14 K  [d] M bd2 fcu Lever arm, z, Area of steel required, LONG SPAN [SUPPORT] Support moment coefficient Support moment Effective depth of beam , As         KNm mm d mm M 0.95 f y z 234 mm 2 195 mm2 [d] Y 12 at 250  2 453 mm 0.063 8.046 KNm 124 mm 0.0209 0.95 d 117.80 mm M 0.95 f y z 175 mm 2 Provide  CALCULATIONS    Provide 0.045 5.769 KNm 112 mm Y 12 OUTPUT at 300 2 377 mm 3.4.4.4 3.4.4.4 3.4.4.4 K  M bd2 fcu Lever arm, z, As Area of steel required, LONG SPAN [MIDSPAN] Table 3.14 Table 3.14 Midspan moment coefficient Midspan moment Effective depth of beam , 3.4.4.4 3.4.4.4 3.4.4.4 K  [d] M bd2 fcu Lever arm, z, Area of steel required, As     0.0184 0.95 d 106.40 mm M 0.95 f y z   139 mm        2 Provide Y 12 at 300 Provide Y 12 2 377 mm 0.034 4.359 KNm 112 mm 0.0139 0.95 d 106.40 mm M 0.95 f y z  105 mm 2 377 at 300 mm2 2 377 mm BS8110 REF Table 3.9 DEFLECTION CHECK CALCULATIONS  Basic minimum effective depth for short span Moment redistribution factor   Tension reinforcement area required Table 3.10 Modification factor 3.12.11.2.7 Modified minimum effective depth CRACKING Cracking is controlled by limiting bar spacing.

https://www.pdf-archive.com/2017/06/11/panel-1/

11/06/2017 www.pdf-archive.com

Panel 3 85%

1hr  Self weight of slab Partitions [minimum] Characteristic imposed load   Design load [1.4gk +1.6qk]  Characteristic dead load  cover Fire resistance OK 20 mm 3.6 KN/m2   Finishes 3.2.1.2.2 6.23 m 5.23 m 150 mm 2 25 N/mm 1.2 KN/m2 1 KN/m2 5.8 KN/m2 gk 3 KN/m2 qk 12.92 KN/m2  2 5.8 KN/m   n 2 3 KN/m 2 12.92 KN/m DESIGN MOMENTS AND REINFORCEMENTS 1.191 Aspect ratio of slab          SHORT SPAN [SUPPORT] Table 3.14 Table 3.14 Support moment coefficient Support moment Effective depth of beam , 3.4.4.4 3.4.4.4 3.4.4.4 K  [d] M bd2 fcu Lever arm, z, As Area of steel required, 0.0508 0.94 d 116.55 mm M 0.95 f y z 430 mm2 Provide Y12 at  195 mm2 Minimum reinforcement area BS8110 REF 0.055 19.540 KNm 124 mm CALCULATIONS 200 2 566 mm OUTPUT SHORT SPAN [MIDSPAN] Table 3.14 Table 3.14 Midspan moment coefficient Support moment Effective depth of beam , 3.4.4.4 K 3.4.4.4 3.4.4.4  [d] M bd2 fcu Lever arm, z, Area of steel required, As                 0.041 14.632 KNm 124 mm 0.0381 0.95 d 117.80 mm M 0.95 f y z 319 mm2 Provide Y 12 at 250 2 453 mm  BS8110 REFthis PDF from an application thatCALCULATIONS OUTPUT You created is not licensed to print to novaPDF printer (http://www.novapdf.com) LONG SPAN [SUPPORT] Table 3.14 Table 3.14 Support moment coefficient Support moment Effective depth of beam , 3.4.4.4 K 3.4.4.4 3.4.4.4  Lever arm, z, [d] M bd2 fcu Area of steel required, As       0.037 13.051 KNm 112 mm  0.0416 0.95 d 106.40 mm M 0.95 f y z  315 mm2 Provide Y12 at Provide Y12 250 2 453 mm LONG SPAN [MIDSPAN] Table 3.14 Table 3.14 Midspan moment coefficient Support moment Effective depth of beam , 3.4.4.4 K 3.4.4.4 3.4.4.4 Lever arm, z,  [d] M bd2 fcu Area of steel required, As        0.028 9.876 KNm 112 mm 0.0315 0.95 d 106.40 mm M 0.95 f y z  238 mm2 at 300 2 377 mm DEFLECTION CHECK Table 3.9 Basic minimum effective depth for short span Moment redistribution factor    Tension reinforcement area provided Tension reinforcement area required Design service stress 201.0 mm 1.0   fs  Table 3.10 Modification factor 3.12.11.2.7 Modified minimum effective depth CRACKING Cracking is controlled by limiting bar spacing.

https://www.pdf-archive.com/2017/06/11/panel-3/

11/06/2017 www.pdf-archive.com

Panel 4 84%

1hr       Self weight of slab Finishes Partitions [minimum] Characteristic dead load Characteristic imposed load 3.2.1.2.2 3.15 m 2.23 m 150 mm 2 25 N/mm 3.6 KN/m  cover Fire resistance OK 20 mm 2 1.2 KN/m2 1 KN/m 2 2 5.8 KN/m 3 KN/m2 12.92 Design load [1.4gk +1.6qk] DESIGN MOMENTS AND REINFORCEMENTS 1.416 Aspect ratio of slab SHORT SPAN [SUPPORT] 0.075 Support moment coefficient 4.773 Support moment 124 Effective depth of beam , [d] M 0.0124 K bd2 fcu 0.95 Lever arm, z, 117.80 M Area of steel required, As 0.95 f y z KN/m2    gk qk n 2 5.8 KN/m 2 3 KN/m 2 12.92 KN/m  Table 3.14 Table 3.14 3.4.4.4 3.4.4.4 3.4.4.4         Minimum reinforcement area SHORT SPAN [MIDSPAN] Table 3.14 Table 3.14 Midspan moment coefficient Midspan moment Effective depth of beam , 3.4.4.4 3.4.4.4 3.4.4.4 K  [d] M bd2 fcu Lever arm, z, Area of steel required, As KNm mm d mm   104 mm2        0.056 3.558 KNm 124 mm  195 mm Provide Y 12 at 300  2 2 377 mm 0.0093 0.95 d 117.80 mm M 0.95 f y z 78 mm2 Provide Y 12 at 300 2 377 mm  BS8110 REF CALCULATIONS OUTPUT LONG SPAN [SUPPORT]  0.045 Table 3.14 Support moment coefficient 2.878 KNm Table 3.14 Support moment You created this PDF from an application that is not licensed to print to novaPDF printer (http://www.novapdf.com)  Effective depth of beam , 3.4.4.4 3.4.4.4 3.4.4.4 K  [d] M bd2 fcu Lever arm, z, As Area of steel required,       112 mm 0.0092 0.95 d 106.40 mm M 0.95 f y z   69 mm2 Provide Y 12 at 300 377 mm 2 LONG SPAN [MIDSPAN] Table 3.14 Table 3.14 Midspan moment coefficient Midspan moment Effective depth of beam , 3.4.4.4 3.4.4.4 3.4.4.4 K  [d] M bd2 fcu Lever arm, z, Area of steel required, As        0.034 2.175 KNm 112 mm 0.0069 0.95 d 106.40 mm M 0.95 f y z  Provide 52 mm2 Y 12 at 300 mm 377 2 2 377 mm BS8110 REF CALCULATIONS OUTPUT DEFLECTION CHECK Table 3.9 Basic minimum effective depth for short span Moment redistribution factor     Tension reinforcement area provided Tension reinforcement area required Design service stress 85.6 mm 1.0 fs  377 mm 78 mm2 2 f y Asreq  Table 3.10 Modification factor 3.12.11.2.7 Modified minimum effective depth CRACKING Cracking is controlled by limiting bar spacing.

https://www.pdf-archive.com/2017/06/11/panel-4/

11/06/2017 www.pdf-archive.com

Z200 Assembly & Parts List 84%

14 15 16 17 18 19 20 21 22 23 22 23 Description Guide, Push Lever Push Lever Component Driven Gear Component Lower Rocker Arm Shaft, Lower Rocker Arm O-Ring 18 x 2.5 Spring O-Ring 16.8 x 2.2 Camshaft Washer 15 Camshaft Washer 15 Qty 1 2 1 2 1 1 1 1 1 2 1 2 Ref.

https://www.pdf-archive.com/2012/12/11/z200-assembly-parts-list/

11/12/2012 www.pdf-archive.com

Outboard Rig PDF 82%

Next I drilled a 3/8” hole 1 1/2” down from the top edge of the T head for the bar locking lever.

https://www.pdf-archive.com/2013/02/25/outboard-rig-pdf/

25/02/2013 www.pdf-archive.com

DIANA 54Airking 82%

54 is a strong and precise recoilless high power air rifle with fixed barrel and side lever cocking.

https://www.pdf-archive.com/2011/05/06/diana-54airking/

06/05/2011 www.pdf-archive.com

Panel 6 81%

1hr LOADING ON SLAB 3.2.1.2.2     3.6 KN/m2 Self weight of slab 1.2 KN/m2 Finishes 1 KN/m2 Partitions [minimum] 5.8 KN/m2 gk Characteristic dead load 3 KN/m2 qk Characteristic imposed load 12.92 KN/m2 n Design load [1.4g k +1.6qk] DESIGN MOMENTS AND REINFORCEMENTS 1.357 Aspect ratio of slab 3.4.4.4 K  [d] M bd2 fcu Lever arm, z, Area of steel required, As Minimum reinforcement area         BS8110 REF CALCULATIONS LONG SPAN [SUPPORT] Table 3.14 Table 3.14 Support moment coefficient Support moment Effective depth of beam , 3.4.4.4 3.4.4.4 3.4.4.4 K  [d] M bd2 fcu Lever arm, z, Area of steel required, 2 5.8 KN/m 2 3 KN/m 2 12.92 KN/m  Midspan moment coefficient Midspan moment Effective depth of beam , 3.4.4.4 3.4.4.4      SHORT SPAN [MIDSPAN] Table 3.14 Table 3.14  cover 20 mm Fire resistance OK As         0.069 8.574 KNm 124 mm 0.0279 0.95 d 117.80 mm M 0.95 fy z 187 mm2 195 mm2 Provide Y12  OUTPUT 0.045 5.632 KNm 112 mm 0.0225 0.95 d 106.40 mm M 0.95 fy z at 250 2 453 mm Area of steel required,    As LONG SPAN [MIDSPAN] Table 3.14 Table 3.14 Midspan moment coefficient Midspan moment Effective depth of beam , 3.4.4.4 3.4.4.4 3.4.4.4  K Lever arm, z, Area of steel required, As BS8110 REF DEFLECTION CHECK Table 3.9 [d] M bd2 fcu M 0.95 fy z 136 mm2        CALCULATIONS 0.95 d 106.40 mm M 0.95 f y z 103 mm2     y sreq sprov  Table 3.10 Modification factor  0.55 Y 12 (477  fs )  2.0 M ) 2 bd 300 mm2 119.7 mm 1.0 453 mm2 187 mm2 * 1 b  2.00 59.86 mm  124 mm Cracking is controlled by limiting bar spacing.

https://www.pdf-archive.com/2017/06/11/panel-6/

11/06/2017 www.pdf-archive.com

ETEC510 - eTextbook Design Final-2 79%

the lever, the wheel and axle, the pulley, the inclined plane, the wedge, and the screw Change Language Music On/Off Simple Machines Additional Features Wiki Home Enter/Exit Full Screen Contents 2 of 28 Table of Contents introduction to unit 5.

https://www.pdf-archive.com/2015/07/08/etec510-etextbook-design-final-2/

08/07/2015 www.pdf-archive.com

wpbowners-manual2015 (1) 78%

Your Bike Front Brake Lever – makes it stop How do I make it work?

https://www.pdf-archive.com/2016/02/05/wpbowners-manual2015-1/

05/02/2016 www.pdf-archive.com

VinkPlast hvaderABS 77%

ABS brandhæmmende lever op til en V0 godkendelse i henhold til UL94.

https://www.pdf-archive.com/2017/05/16/vinkplast-hvaderabs/

16/05/2017 www.pdf-archive.com

Omega Speed Auto reduced 3220 77%

Swiss lever escapement, minute counter (30 min.) at 9 o’clock, hour counter (12 h) at 6 o’clock + small second at 3 o’clock.

https://www.pdf-archive.com/2014/01/31/omega-speed-auto-reduced-3220/

31/01/2014 www.pdf-archive.com