The document describes the design of a composite beam analyzed in SAP 2000 V17. It consists of an 8m long steel beam supported at both ends by columns. The beam is made up of various sized steel angles connected by bolts. The analysis considers dead loads, live loads, and seismic loads. Results of the finite element model include deformation patterns, member forces, and support reactions. Mass properties are also summarized.
Case 1455 b crawler dozer service repair manualufjjsejfkskemme
This document provides an overview of engine diagnosis for technicians. It explains that there are three main requirements for an engine to start and run properly: fuel, compression, and ignition. Any issues with these systems can cause problems. Fuel system issues may occur anywhere from the tank to the injection pump and injectors. Compression relies on proper air intake, valve operation, and cylinder components. Ignition results from adequate compression igniting injected fuel, so injection pump timing and spray patterns are important. The following pages detail common trouble symptoms, causes, and repairs. Proper diagnosis is needed to find and fix issues as well as address their underlying causes.
Great plains precision seeding system 2010 p & 2020p PartCatalogs Net
This document is a parts manual for Great Plains Precision Seeding Systems models 2010P and 2020P from 2010-2020. It contains 14 sections that provide exploded diagrams and part lists for the major components of the seeder, including the box assembly, metering system, drive, openers, press wheels, decals, optional markers and more. Safety warnings are included to note potential hazards. Copyright and trademark information is also provided.
Great plains parts manual 2 section folding drill PartCatalogs Net
This document is a parts manual for the Great Plains 2600-2S 26' 2-Section Folding Drill. It contains over 100 pages detailing the parts, assemblies, and components that make up the drill. The manual provides exploded diagrams and part numbers for all major systems including the mainframe, transport axle, toolbars, seed and fertilizer boxes, metering system, gauge wheels, drives, openers, and press wheels. Safety warnings are marked throughout and the manufacturer's trademarks and copyright information are included at the beginning.
This document is the parts manual for the Great Plains 2SF24 and 2SF30 24' and 30' 2-section drills from 1986+. It contains over 200 pages detailing over 800 individual part numbers, diagrams, and assembly instructions for all components of the drills. The introduction provides information on manual revisions, trademarks, and the table of contents outlines 11 sections covering the frame, transport, boxes, metering, drive, openers, press wheels, hydraulics, decals, markers, and assemblies. Readers are advised to follow all instructions and warnings as the lives of themselves and others depend on it.
This document is a parts manual for a Great Plains 3N-3010 & 3N-3020 3-S No-Till Drill. It contains over 200 pages detailing all components of the drill with part numbers and diagrams for replacement parts. It begins with introductory information and tables of contents. Then it is organized by section covering different systems and components like the tongue, rockshaft, metering system, openers, press wheels, hydraulics, and options. Safety warnings are included to read the operator's manual and follow all instructions for safe operation. Copyright and trademark information is provided in the beginning.
Great plains folding no-till drill parts manual PartCatalogs Net
This document is a parts manual for Great Plains 2N-2410 and 2N-3010 Folding No-Till Drills from 1995+. It contains over 100 pages detailing parts, assemblies, and components of the drills. The manual provides part numbers, diagrams, and instructions to assist with ordering replacement parts and maintaining the equipment. Safety warnings are included to notify the user of potential hazards. The document is copyrighted and its content may not reflect future product updates.
Great plains parts manual 1300 f end wheel drillPartCatalogs Net
This document is a parts manual for a 13' 1300 End Wheel Drill manufactured by Great Plains Manufacturing, Inc. It contains over 100 pages detailing assembly instructions and parts lists for components of the drill including the frame, transport system, seed/fertilizer box, metering system, drive components, openers, press wheels, hydraulics, and decals. The manual provides part numbers and diagrams to order replacement parts and ensure proper assembly and maintenance of the equipment.
Bảng giá thiết bị đóng cắt Mitsubishi ElectricBeeteco
Beeteco.com là trang mua sắm trực tuyến thiết bị điện - Tự động hóa uy tín tại Việt Nam.
Chuyên cung cấp các thiết bị: Đèn báo nút nhấn, Relay, Timer, Contactor, MCCB ELCB, Biến tần, Van, Thiết bị cảm biến, phụ kiện tủ điện, .... Từ các thương hiệu hàng đầu trên thế giới.
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Case 1455 b crawler dozer service repair manualufjjsejfkskemme
This document provides an overview of engine diagnosis for technicians. It explains that there are three main requirements for an engine to start and run properly: fuel, compression, and ignition. Any issues with these systems can cause problems. Fuel system issues may occur anywhere from the tank to the injection pump and injectors. Compression relies on proper air intake, valve operation, and cylinder components. Ignition results from adequate compression igniting injected fuel, so injection pump timing and spray patterns are important. The following pages detail common trouble symptoms, causes, and repairs. Proper diagnosis is needed to find and fix issues as well as address their underlying causes.
Great plains precision seeding system 2010 p & 2020p PartCatalogs Net
This document is a parts manual for Great Plains Precision Seeding Systems models 2010P and 2020P from 2010-2020. It contains 14 sections that provide exploded diagrams and part lists for the major components of the seeder, including the box assembly, metering system, drive, openers, press wheels, decals, optional markers and more. Safety warnings are included to note potential hazards. Copyright and trademark information is also provided.
Great plains parts manual 2 section folding drill PartCatalogs Net
This document is a parts manual for the Great Plains 2600-2S 26' 2-Section Folding Drill. It contains over 100 pages detailing the parts, assemblies, and components that make up the drill. The manual provides exploded diagrams and part numbers for all major systems including the mainframe, transport axle, toolbars, seed and fertilizer boxes, metering system, gauge wheels, drives, openers, and press wheels. Safety warnings are marked throughout and the manufacturer's trademarks and copyright information are included at the beginning.
This document is the parts manual for the Great Plains 2SF24 and 2SF30 24' and 30' 2-section drills from 1986+. It contains over 200 pages detailing over 800 individual part numbers, diagrams, and assembly instructions for all components of the drills. The introduction provides information on manual revisions, trademarks, and the table of contents outlines 11 sections covering the frame, transport, boxes, metering, drive, openers, press wheels, hydraulics, decals, markers, and assemblies. Readers are advised to follow all instructions and warnings as the lives of themselves and others depend on it.
This document is a parts manual for a Great Plains 3N-3010 & 3N-3020 3-S No-Till Drill. It contains over 200 pages detailing all components of the drill with part numbers and diagrams for replacement parts. It begins with introductory information and tables of contents. Then it is organized by section covering different systems and components like the tongue, rockshaft, metering system, openers, press wheels, hydraulics, and options. Safety warnings are included to read the operator's manual and follow all instructions for safe operation. Copyright and trademark information is provided in the beginning.
Great plains folding no-till drill parts manual PartCatalogs Net
This document is a parts manual for Great Plains 2N-2410 and 2N-3010 Folding No-Till Drills from 1995+. It contains over 100 pages detailing parts, assemblies, and components of the drills. The manual provides part numbers, diagrams, and instructions to assist with ordering replacement parts and maintaining the equipment. Safety warnings are included to notify the user of potential hazards. The document is copyrighted and its content may not reflect future product updates.
Great plains parts manual 1300 f end wheel drillPartCatalogs Net
This document is a parts manual for a 13' 1300 End Wheel Drill manufactured by Great Plains Manufacturing, Inc. It contains over 100 pages detailing assembly instructions and parts lists for components of the drill including the frame, transport system, seed/fertilizer box, metering system, drive components, openers, press wheels, hydraulics, and decals. The manual provides part numbers and diagrams to order replacement parts and ensure proper assembly and maintenance of the equipment.
Bảng giá thiết bị đóng cắt Mitsubishi ElectricBeeteco
Beeteco.com là trang mua sắm trực tuyến thiết bị điện - Tự động hóa uy tín tại Việt Nam.
Chuyên cung cấp các thiết bị: Đèn báo nút nhấn, Relay, Timer, Contactor, MCCB ELCB, Biến tần, Van, Thiết bị cảm biến, phụ kiện tủ điện, .... Từ các thương hiệu hàng đầu trên thế giới.
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Caterpillar Cat CS-583C Vibratory Compactor (Prefix 7NN) Service Repair Manua...9fikslkddmd8u
This document provides instructions for assembling pistons and connecting rods in a CS-583C vibratory compactor powered by a 3116 engine. It outlines the required tools and lubricants, installation steps including installing piston rings, connecting rod bearings and caps. References are provided for determining reusability of parts. The 7-step installation procedure includes compressing piston rings, aligning rods with crankshaft and tapping pistons into cylinders while guiding rods onto crankshaft.
Caterpillar Cat CS-583C Vibratory Compactor (Prefix 7NN) Service Repair Manua...8fusejkdmd9i
This document provides instructions for removing and installing pistons and connecting rods in a CS-583C vibratory compactor powered by a 3116 engine. It outlines the required tools and safety notices. The procedures describe removing main crankshaft bearings, installing piston rings using compressors, inserting pistons and connecting rods into cylinders while tapping with hammers, and torquing connecting rod cap bolts to the specified values. References are provided for determining if parts can be reused.
Bảng giá Thiết bị đóng cắt Mitsubishi Electric 2016- Beeteco.comBeeteco
Bảng giá: Thiết bị đóng cắt Mitsubishi
Bao gồm : Contactor (Khởi động từ), MCCB (Aptomat), ELCB, MCB, ACB (máy cắt không khí),...
Beeteco.com là trang mua sắm trực tuyến thiết bị điện - Tự động hóa uy tín tại Việt Nam.
Chuyên cung cấp các thiết bị: Đèn báo nút nhấn, Relay, Timer, Contactor, MCCB ELCB, Biến tần, Van, Thiết bị cảm biến, phụ kiện tủ điện, .... Từ các thương hiệu hàng đầu trên thế giới.
www.beeteco.com @ Công ty TNHH TM KT ASTER
Số 7 Đại Lộ Độc Lập, KCN Sóng Thần 1, P. Dĩ An, Tx. Dĩ An, Bình Dương
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Tel: 0650 3617 012
DĐ: 0904 676 925
Caterpillar Cat 650B and 660B WHEEL TRACTOR (Prefix 58K) Service Repair Manua...shibi1322
This document provides instructions for removing the camshaft from Caterpillar 650B and 660B wheel tractors. It involves removing several other components first, including the camshaft gear and rocker arms. Tools are then used to support the camshaft as it is moved out of the cylinder head and into a guide tool to prevent damage to the camshaft bearings during removal.
Caterpillar Cat 650B and 660B WHEEL TRACTOR (Prefix 58K) Service Repair Manua...9fikslkddmd8u
This document provides instructions for removing the camshaft from Caterpillar 650B and 660B wheel tractors. It involves removing components like the camshaft gear and rocker arms first. Tools like a cradle, guide, camshaft pilots and hooks are then used to support the camshaft as it is moved out of the cylinder head and into the guide. Care must be taken to avoid damaging the camshaft or bearings during removal.
Caterpillar Cat 650B and 660B WHEEL TRACTOR (Prefix 58K) Service Repair Manua...8foskkdjdkdm3e
This document provides instructions for removing and installing a cylinder head on Caterpillar 650B and 660B wheel tractors. It describes 17 steps to remove the cylinder head, which involves disconnecting hoses, harnesses, and removing bolts. 13 steps are listed to install the cylinder head, which includes cleaning surfaces, applying sealants, and torquing bolts in a specific sequence. The document also provides tools required and safety precautions for the job.
This document provides guidance for stress analysis of reinforced plastic (FRP) piping according to ASME B31.1 and B31.3 codes. It includes FRP pipe material properties, fitting stress analysis factors, allowable stresses, and recommendations for code stress calculations including applying a 20% increase to allowable stresses for occasional loads like wind or seismic events.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...9fiisekodkdmd
This document provides instructions for assembling pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and gives step-by-step instructions that include installing piston rings, connecting rod bearings, pistons onto connecting rods, and connecting rods onto the crankshaft. References are provided for determining reusability of parts and additional information.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...ufjsekdm8id
This document provides instructions for removing and installing pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and parts, presents illustrations of the process, and provides the following steps: inspecting pistons and rings for reuse, installing rings onto pistons using ring compressors, installing pistons and connecting rods onto the crankshaft, lubricating and installing connecting rod caps and bolts while torquing to specifications, and references other documents for additional information on inspecting and reusing components. The overall document provides a technical service manual section on disassembling and reassembling the pistons and connecting rods in this equipment.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...8fisiodkdmm3e
This document provides instructions for removing and installing pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and parts, presents illustrations of the process, and provides the following steps: inspecting pistons and rings for reuse, installing rings onto pistons using ring compressors, installing pistons and connecting rods onto the crankshaft, lubricating and installing connecting rod caps and bolts while torquing to specifications, and references other documents for additional information on inspecting and reusing components. The overall document provides a technical service manual section on disassembling and reassembling the pistons and connecting rods in this equipment.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...9fikslkddmd8u
This document provides instructions for assembling pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and gives step-by-step instructions including installing piston rings, connecting rod bearings, pistons onto connecting rods, and connecting rods onto the crankshaft. It also provides references for determining whether parts can be reused and cleaning/inspection procedures.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...8fusejkdmd9i
This document provides instructions for assembling pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and gives step-by-step instructions that include installing piston rings, connecting rod bearings, pistons onto connecting rods, and connecting rods onto the crankshaft. References are provided for determining reusability of parts and additional information.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...ujkfdkkmsmd
This document provides instructions for removing and installing pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and parts, presents illustrations of the process, and provides step-by-step instructions including inspecting parts, installing piston rings, positioning the piston on the connecting rod, and attaching the connecting rod cap. It also provides references for determining whether parts can be reused and cautions to keep parts clean to prevent wear.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...jnnfnjsdnnd
This document provides instructions for assembling pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and gives step-by-step instructions including installing piston rings, connecting rod bearings, pistons onto connecting rods, and connecting rods onto the crankshaft. It also provides references for determining whether parts can be reused and cleaning/inspection procedures.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...hdjsjndndnd
This document provides instructions for assembling pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and gives step-by-step instructions including installing piston rings, connecting rod bearings, pistons onto connecting rods, and connecting rods onto the crankshaft. It also provides references for determining whether parts can be reused and cleaning/inspection procedures.
This document is a parts catalogue for Yamaha outboard motors. It contains part numbers, descriptions and other information for replacement parts. The parts are organized by section, with diagrams showing the parts for items like the top cowling, cylinder, crankcase, valve and other engine components. Abbreviations used in the catalogue are explained, along with notes on things like applicable serial numbers and quantity columns.
This document describes several engineering design and development projects led by Thomas C. Ries, including:
1. A custom designed pressurized SF6 vessel to house a 300kV power supply for the M9 beamline particle separator at TRIUMF.
2. A computer controlled positioning system for cesium iodide detectors in the NPDGamma experiment at LANSCE, which supported the detectors and ancillary equipment.
3. A computer automated magnetic field mapper for the G0 and Q-Weak magnetic spectrometers at JLab, which mapped fringe fields along three axes.
Caterpillar Cat CS-663E, CP-663E Vibratory Compactor (Prefix ASB) Service Rep...8fusejkdmd9i
The document provides instructions for removing and installing various engine components on a Caterpillar 3056E engine, including:
- Removing the cylinder head by first removing other components attached to the head like manifolds, then loosening bolts and removing the head and gasket.
- Removing the valve mechanism cover by disconnecting hoses and removing bolts.
- Removing the rocker shaft and pushrods by removing the valve mechanism cover, nuts and bolts, then removing the components.
- Disassembling the rocker shaft by removing retaining rings, rocker arms, bushings and springs.
The procedures note keeping parts clean, using proper lifting devices due to component weights, and noting
Carter’s Xtenda Series stainless steel needle bearings are available in both standard and custom sizes. You can order Cam Followers from stock in sizes 1/2 thru 2 1/2 and cam yoke rollers from 3/4 thru 2 1/2,with custom designs available for virtually any special application. For More Information please Visit: http://www.carterbearings.co.uk/wp-content/themes/default/downloads/carter/Carter_catalogue.pdf
3M cable and electrical products catalogue and 3M Cable Price List - Shopelecttwinkleerai
This document provides pricing and product information for cable termination kits. It lists various heat shrink, tape, push-on and cast resin kits for terminating low voltage 1.1kV, medium voltage 3.3kV and 6.6kV, and high voltage 11kV cables. Key information included are product codes, applicable cable sizes, unit prices and descriptions. Terms and conditions are also specified regarding pricing, taxes, freight and insurance charges.
The debris of the ‘last major merger’ is dynamically youngSérgio Sacani
The Milky Way’s (MW) inner stellar halo contains an [Fe/H]-rich component with highly eccentric orbits, often referred to as the
‘last major merger.’ Hypotheses for the origin of this component include Gaia-Sausage/Enceladus (GSE), where the progenitor
collided with the MW proto-disc 8–11 Gyr ago, and the Virgo Radial Merger (VRM), where the progenitor collided with the
MW disc within the last 3 Gyr. These two scenarios make different predictions about observable structure in local phase space,
because the morphology of debris depends on how long it has had to phase mix. The recently identified phase-space folds in Gaia
DR3 have positive caustic velocities, making them fundamentally different than the phase-mixed chevrons found in simulations
at late times. Roughly 20 per cent of the stars in the prograde local stellar halo are associated with the observed caustics. Based
on a simple phase-mixing model, the observed number of caustics are consistent with a merger that occurred 1–2 Gyr ago.
We also compare the observed phase-space distribution to FIRE-2 Latte simulations of GSE-like mergers, using a quantitative
measurement of phase mixing (2D causticality). The observed local phase-space distribution best matches the simulated data
1–2 Gyr after collision, and certainly not later than 3 Gyr. This is further evidence that the progenitor of the ‘last major merger’
did not collide with the MW proto-disc at early times, as is thought for the GSE, but instead collided with the MW disc within
the last few Gyr, consistent with the body of work surrounding the VRM.
Caterpillar Cat CS-583C Vibratory Compactor (Prefix 7NN) Service Repair Manua...9fikslkddmd8u
This document provides instructions for assembling pistons and connecting rods in a CS-583C vibratory compactor powered by a 3116 engine. It outlines the required tools and lubricants, installation steps including installing piston rings, connecting rod bearings and caps. References are provided for determining reusability of parts. The 7-step installation procedure includes compressing piston rings, aligning rods with crankshaft and tapping pistons into cylinders while guiding rods onto crankshaft.
Caterpillar Cat CS-583C Vibratory Compactor (Prefix 7NN) Service Repair Manua...8fusejkdmd9i
This document provides instructions for removing and installing pistons and connecting rods in a CS-583C vibratory compactor powered by a 3116 engine. It outlines the required tools and safety notices. The procedures describe removing main crankshaft bearings, installing piston rings using compressors, inserting pistons and connecting rods into cylinders while tapping with hammers, and torquing connecting rod cap bolts to the specified values. References are provided for determining if parts can be reused.
Bảng giá Thiết bị đóng cắt Mitsubishi Electric 2016- Beeteco.comBeeteco
Bảng giá: Thiết bị đóng cắt Mitsubishi
Bao gồm : Contactor (Khởi động từ), MCCB (Aptomat), ELCB, MCB, ACB (máy cắt không khí),...
Beeteco.com là trang mua sắm trực tuyến thiết bị điện - Tự động hóa uy tín tại Việt Nam.
Chuyên cung cấp các thiết bị: Đèn báo nút nhấn, Relay, Timer, Contactor, MCCB ELCB, Biến tần, Van, Thiết bị cảm biến, phụ kiện tủ điện, .... Từ các thương hiệu hàng đầu trên thế giới.
www.beeteco.com @ Công ty TNHH TM KT ASTER
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Caterpillar Cat 650B and 660B WHEEL TRACTOR (Prefix 58K) Service Repair Manua...shibi1322
This document provides instructions for removing the camshaft from Caterpillar 650B and 660B wheel tractors. It involves removing several other components first, including the camshaft gear and rocker arms. Tools are then used to support the camshaft as it is moved out of the cylinder head and into a guide tool to prevent damage to the camshaft bearings during removal.
Caterpillar Cat 650B and 660B WHEEL TRACTOR (Prefix 58K) Service Repair Manua...9fikslkddmd8u
This document provides instructions for removing the camshaft from Caterpillar 650B and 660B wheel tractors. It involves removing components like the camshaft gear and rocker arms first. Tools like a cradle, guide, camshaft pilots and hooks are then used to support the camshaft as it is moved out of the cylinder head and into the guide. Care must be taken to avoid damaging the camshaft or bearings during removal.
Caterpillar Cat 650B and 660B WHEEL TRACTOR (Prefix 58K) Service Repair Manua...8foskkdjdkdm3e
This document provides instructions for removing and installing a cylinder head on Caterpillar 650B and 660B wheel tractors. It describes 17 steps to remove the cylinder head, which involves disconnecting hoses, harnesses, and removing bolts. 13 steps are listed to install the cylinder head, which includes cleaning surfaces, applying sealants, and torquing bolts in a specific sequence. The document also provides tools required and safety precautions for the job.
This document provides guidance for stress analysis of reinforced plastic (FRP) piping according to ASME B31.1 and B31.3 codes. It includes FRP pipe material properties, fitting stress analysis factors, allowable stresses, and recommendations for code stress calculations including applying a 20% increase to allowable stresses for occasional loads like wind or seismic events.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...9fiisekodkdmd
This document provides instructions for assembling pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and gives step-by-step instructions that include installing piston rings, connecting rod bearings, pistons onto connecting rods, and connecting rods onto the crankshaft. References are provided for determining reusability of parts and additional information.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...ufjsekdm8id
This document provides instructions for removing and installing pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and parts, presents illustrations of the process, and provides the following steps: inspecting pistons and rings for reuse, installing rings onto pistons using ring compressors, installing pistons and connecting rods onto the crankshaft, lubricating and installing connecting rod caps and bolts while torquing to specifications, and references other documents for additional information on inspecting and reusing components. The overall document provides a technical service manual section on disassembling and reassembling the pistons and connecting rods in this equipment.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...8fisiodkdmm3e
This document provides instructions for removing and installing pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and parts, presents illustrations of the process, and provides the following steps: inspecting pistons and rings for reuse, installing rings onto pistons using ring compressors, installing pistons and connecting rods onto the crankshaft, lubricating and installing connecting rod caps and bolts while torquing to specifications, and references other documents for additional information on inspecting and reusing components. The overall document provides a technical service manual section on disassembling and reassembling the pistons and connecting rods in this equipment.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...9fikslkddmd8u
This document provides instructions for assembling pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and gives step-by-step instructions including installing piston rings, connecting rod bearings, pistons onto connecting rods, and connecting rods onto the crankshaft. It also provides references for determining whether parts can be reused and cleaning/inspection procedures.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...8fusejkdmd9i
This document provides instructions for assembling pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and gives step-by-step instructions that include installing piston rings, connecting rod bearings, pistons onto connecting rods, and connecting rods onto the crankshaft. References are provided for determining reusability of parts and additional information.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...ujkfdkkmsmd
This document provides instructions for removing and installing pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and parts, presents illustrations of the process, and provides step-by-step instructions including inspecting parts, installing piston rings, positioning the piston on the connecting rod, and attaching the connecting rod cap. It also provides references for determining whether parts can be reused and cautions to keep parts clean to prevent wear.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...jnnfnjsdnnd
This document provides instructions for assembling pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and gives step-by-step instructions including installing piston rings, connecting rod bearings, pistons onto connecting rods, and connecting rods onto the crankshaft. It also provides references for determining whether parts can be reused and cleaning/inspection procedures.
Caterpillar Cat CS-573D Vibratory Compactor (Prefix CMK) Service Repair Manua...hdjsjndndnd
This document provides instructions for assembling pistons and connecting rods in a CS-573D Vibratory Compactor powered by a 3116 engine. It outlines the required tools and gives step-by-step instructions including installing piston rings, connecting rod bearings, pistons onto connecting rods, and connecting rods onto the crankshaft. It also provides references for determining whether parts can be reused and cleaning/inspection procedures.
This document is a parts catalogue for Yamaha outboard motors. It contains part numbers, descriptions and other information for replacement parts. The parts are organized by section, with diagrams showing the parts for items like the top cowling, cylinder, crankcase, valve and other engine components. Abbreviations used in the catalogue are explained, along with notes on things like applicable serial numbers and quantity columns.
This document describes several engineering design and development projects led by Thomas C. Ries, including:
1. A custom designed pressurized SF6 vessel to house a 300kV power supply for the M9 beamline particle separator at TRIUMF.
2. A computer controlled positioning system for cesium iodide detectors in the NPDGamma experiment at LANSCE, which supported the detectors and ancillary equipment.
3. A computer automated magnetic field mapper for the G0 and Q-Weak magnetic spectrometers at JLab, which mapped fringe fields along three axes.
Caterpillar Cat CS-663E, CP-663E Vibratory Compactor (Prefix ASB) Service Rep...8fusejkdmd9i
The document provides instructions for removing and installing various engine components on a Caterpillar 3056E engine, including:
- Removing the cylinder head by first removing other components attached to the head like manifolds, then loosening bolts and removing the head and gasket.
- Removing the valve mechanism cover by disconnecting hoses and removing bolts.
- Removing the rocker shaft and pushrods by removing the valve mechanism cover, nuts and bolts, then removing the components.
- Disassembling the rocker shaft by removing retaining rings, rocker arms, bushings and springs.
The procedures note keeping parts clean, using proper lifting devices due to component weights, and noting
Carter’s Xtenda Series stainless steel needle bearings are available in both standard and custom sizes. You can order Cam Followers from stock in sizes 1/2 thru 2 1/2 and cam yoke rollers from 3/4 thru 2 1/2,with custom designs available for virtually any special application. For More Information please Visit: http://www.carterbearings.co.uk/wp-content/themes/default/downloads/carter/Carter_catalogue.pdf
3M cable and electrical products catalogue and 3M Cable Price List - Shopelecttwinkleerai
This document provides pricing and product information for cable termination kits. It lists various heat shrink, tape, push-on and cast resin kits for terminating low voltage 1.1kV, medium voltage 3.3kV and 6.6kV, and high voltage 11kV cables. Key information included are product codes, applicable cable sizes, unit prices and descriptions. Terms and conditions are also specified regarding pricing, taxes, freight and insurance charges.
The debris of the ‘last major merger’ is dynamically youngSérgio Sacani
The Milky Way’s (MW) inner stellar halo contains an [Fe/H]-rich component with highly eccentric orbits, often referred to as the
‘last major merger.’ Hypotheses for the origin of this component include Gaia-Sausage/Enceladus (GSE), where the progenitor
collided with the MW proto-disc 8–11 Gyr ago, and the Virgo Radial Merger (VRM), where the progenitor collided with the
MW disc within the last 3 Gyr. These two scenarios make different predictions about observable structure in local phase space,
because the morphology of debris depends on how long it has had to phase mix. The recently identified phase-space folds in Gaia
DR3 have positive caustic velocities, making them fundamentally different than the phase-mixed chevrons found in simulations
at late times. Roughly 20 per cent of the stars in the prograde local stellar halo are associated with the observed caustics. Based
on a simple phase-mixing model, the observed number of caustics are consistent with a merger that occurred 1–2 Gyr ago.
We also compare the observed phase-space distribution to FIRE-2 Latte simulations of GSE-like mergers, using a quantitative
measurement of phase mixing (2D causticality). The observed local phase-space distribution best matches the simulated data
1–2 Gyr after collision, and certainly not later than 3 Gyr. This is further evidence that the progenitor of the ‘last major merger’
did not collide with the MW proto-disc at early times, as is thought for the GSE, but instead collided with the MW disc within
the last few Gyr, consistent with the body of work surrounding the VRM.
Current Ms word generated power point presentation covers major details about the micronuclei test. It's significance and assays to conduct it. It is used to detect the micronuclei formation inside the cells of nearly every multicellular organism. It's formation takes place during chromosomal sepration at metaphase.
ESR spectroscopy in liquid food and beverages.pptxPRIYANKA PATEL
With increasing population, people need to rely on packaged food stuffs. Packaging of food materials requires the preservation of food. There are various methods for the treatment of food to preserve them and irradiation treatment of food is one of them. It is the most common and the most harmless method for the food preservation as it does not alter the necessary micronutrients of food materials. Although irradiated food doesn’t cause any harm to the human health but still the quality assessment of food is required to provide consumers with necessary information about the food. ESR spectroscopy is the most sophisticated way to investigate the quality of the food and the free radicals induced during the processing of the food. ESR spin trapping technique is useful for the detection of highly unstable radicals in the food. The antioxidant capability of liquid food and beverages in mainly performed by spin trapping technique.
ESPP presentation to EU Waste Water Network, 4th June 2024 “EU policies driving nutrient removal and recycling
and the revised UWWTD (Urban Waste Water Treatment Directive)”
Travis Hills' Endeavors in Minnesota: Fostering Environmental and Economic Pr...Travis Hills MN
Travis Hills of Minnesota developed a method to convert waste into high-value dry fertilizer, significantly enriching soil quality. By providing farmers with a valuable resource derived from waste, Travis Hills helps enhance farm profitability while promoting environmental stewardship. Travis Hills' sustainable practices lead to cost savings and increased revenue for farmers by improving resource efficiency and reducing waste.
Phenomics assisted breeding in crop improvementIshaGoswami9
As the population is increasing and will reach about 9 billion upto 2050. Also due to climate change, it is difficult to meet the food requirement of such a large population. Facing the challenges presented by resource shortages, climate
change, and increasing global population, crop yield and quality need to be improved in a sustainable way over the coming decades. Genetic improvement by breeding is the best way to increase crop productivity. With the rapid progression of functional
genomics, an increasing number of crop genomes have been sequenced and dozens of genes influencing key agronomic traits have been identified. However, current genome sequence information has not been adequately exploited for understanding
the complex characteristics of multiple gene, owing to a lack of crop phenotypic data. Efficient, automatic, and accurate technologies and platforms that can capture phenotypic data that can
be linked to genomics information for crop improvement at all growth stages have become as important as genotyping. Thus,
high-throughput phenotyping has become the major bottleneck restricting crop breeding. Plant phenomics has been defined as the high-throughput, accurate acquisition and analysis of multi-dimensional phenotypes
during crop growing stages at the organism level, including the cell, tissue, organ, individual plant, plot, and field levels. With the rapid development of novel sensors, imaging technology,
and analysis methods, numerous infrastructure platforms have been developed for phenotyping.
The ability to recreate computational results with minimal effort and actionable metrics provides a solid foundation for scientific research and software development. When people can replicate an analysis at the touch of a button using open-source software, open data, and methods to assess and compare proposals, it significantly eases verification of results, engagement with a diverse range of contributors, and progress. However, we have yet to fully achieve this; there are still many sociotechnical frictions.
Inspired by David Donoho's vision, this talk aims to revisit the three crucial pillars of frictionless reproducibility (data sharing, code sharing, and competitive challenges) with the perspective of deep software variability.
Our observation is that multiple layers — hardware, operating systems, third-party libraries, software versions, input data, compile-time options, and parameters — are subject to variability that exacerbates frictions but is also essential for achieving robust, generalizable results and fostering innovation. I will first review the literature, providing evidence of how the complex variability interactions across these layers affect qualitative and quantitative software properties, thereby complicating the reproduction and replication of scientific studies in various fields.
I will then present some software engineering and AI techniques that can support the strategic exploration of variability spaces. These include the use of abstractions and models (e.g., feature models), sampling strategies (e.g., uniform, random), cost-effective measurements (e.g., incremental build of software configurations), and dimensionality reduction methods (e.g., transfer learning, feature selection, software debloating).
I will finally argue that deep variability is both the problem and solution of frictionless reproducibility, calling the software science community to develop new methods and tools to manage variability and foster reproducibility in software systems.
Exposé invité Journées Nationales du GDR GPL 2024
Remote Sensing and Computational, Evolutionary, Supercomputing, and Intellige...University of Maribor
Slides from talk:
Aleš Zamuda: Remote Sensing and Computational, Evolutionary, Supercomputing, and Intelligent Systems.
11th International Conference on Electrical, Electronics and Computer Engineering (IcETRAN), Niš, 3-6 June 2024
Inter-Society Networking Panel GRSS/MTT-S/CIS Panel Session: Promoting Connection and Cooperation
https://www.etran.rs/2024/en/home-english/
Authoring a personal GPT for your research and practice: How we created the Q...Leonel Morgado
Thematic analysis in qualitative research is a time-consuming and systematic task, typically done using teams. Team members must ground their activities on common understandings of the major concepts underlying the thematic analysis, and define criteria for its development. However, conceptual misunderstandings, equivocations, and lack of adherence to criteria are challenges to the quality and speed of this process. Given the distributed and uncertain nature of this process, we wondered if the tasks in thematic analysis could be supported by readily available artificial intelligence chatbots. Our early efforts point to potential benefits: not just saving time in the coding process but better adherence to criteria and grounding, by increasing triangulation between humans and artificial intelligence. This tutorial will provide a description and demonstration of the process we followed, as two academic researchers, to develop a custom ChatGPT to assist with qualitative coding in the thematic data analysis process of immersive learning accounts in a survey of the academic literature: QUAL-E Immersive Learning Thematic Analysis Helper. In the hands-on time, participants will try out QUAL-E and develop their ideas for their own qualitative coding ChatGPT. Participants that have the paid ChatGPT Plus subscription can create a draft of their assistants. The organizers will provide course materials and slide deck that participants will be able to utilize to continue development of their custom GPT. The paid subscription to ChatGPT Plus is not required to participate in this workshop, just for trying out personal GPTs during it.
The technology uses reclaimed CO₂ as the dyeing medium in a closed loop process. When pressurized, CO₂ becomes supercritical (SC-CO₂). In this state CO₂ has a very high solvent power, allowing the dye to dissolve easily.
1. DISEÑO DE VIGA COMPUESTA
Análisis realizado en SAP 2000 V 17
1. Generalidades
El siguienteelementoa analizar, se describe como una viga apoyada en los extremos por
dos columnas y estas mismas servirá como reemplazo de una viga en concreto armado,
pero en esta situación consideraremos en acero puro, (viga compuesta), la cual está
articulada con pernos y ambos extremos están apoyados sobre bases fijas en sus
respectivas columnas.
Un esquema que representa la viga es el siguiente:
Las dimensionesde lavigacompuestase indicanacontinuaciónenel siguienteesquema:
8m
0.50m
0.35m
L2X2X1/8
L3x3x3/16
L2x2x3/16
2. Para realizarel cálculode ladeflexión,flecha, reaccionesydemásparámetrosde laviga se
consideró en cuenta las cargas más importantes como son:
- Carga muerta “D”
- Carga viva “L”
- Carga de sismo “H”
-
2. Modelo de la geometría
Esta sección proporciona información geométrica del modelo, incluyendo los elementos tales
como coordenadas de ejes, sujeciones y conectividad elemento.
Figura 1: Modelo de elementos finitos
3. Materialesa utilizar
En estasecciónse aclara losmaterialesautilizarparael diseñode laviga.
Table 24: lista de materiales – por la propiedad de la seccion
Section ObjectType NumPieces TotalLength TotalWeight
mm Kgf
L2X2X1/8 angulo 76 33945.00 83.20
L2-1/2X1-
1/2X3/16
angulo 2 1280.62 4.64
L2-1/2X2X3/16 angulo 7 4201.56 17.21
L2X2X3/16 Angulo 18 10403.12 37.67
L3X2-1/2X1/4 angulo 7 3500.00 23.22
L3X2-1/2X3/16 angulo 5 2920.94 14.73
L3X2-1/2X7/16 angulo 4 32000.00 358.12
L3X3X1/4 angulo 5 2500.00 18.23
L3X3X3/16 angulo 4 2561.25 14.14
3. Tabla 1: propiedades de los materiales
Material Peso
especifico
Unidad de
masa
E1 G12 U12 A1
Kgf/mm3 Kgf-s2/mm4 Kgf/mm2 Kgf/mm2 1/C
4000Psi 2.4028E-06 2.4501E-10 2534.564 1056.068 0.200000 9.9000E-06
A36 7.8490E-06 8.0038E-10 20389.019 7841.930 0.300000 1.1700E-05
A992Fy50 7.8490E-06 8.0038E-10 20389.019 7841.930 0.300000 1.1700E-05
Tabla 2: Propiedades – Datos del acero
Material Fy Fu Pendiente
final
Kgf/mm2 Kgf/mm2
A36 25.311 40.778 -0.100000
A992Fy50 35.153 45.700 -0.100000
Table 3: Propiedades - datos del concreto
Material Fc Pendiente
final
Kgf/mm2
4000Psi 2.812 -0.100000
3.1 Propiedadesde la sección
En estasecciónse ofrece secciónde información sobre propiedadesdelosobjetos
utilizadosenel modelo.
Áreas
Tabla 4: Area de la Seccion Propiedades
Sección Material Tipo de are tipo perforeDOF espesor Doble
grueso
F11Mod
mm mm
ASEC1 4000Psi capa Capa fina si 250.000 250.000 1.000000
4. Patrones de carga
Esta secciónproporcionainformaciónde cargatal como se aplicaal modelo.
Table 5: Definiciones de patrones de carga
Carga
patentada
Tipo de
designacion
SelfWtMult Auto carga
DEAD DEAD 1.000000
VIVA LIVE 0.000000
VIVA DEL
TECHO
LIVE 0.000000
VIVA MINIMA
REPARTIDA
LIVE 0.000000
4. 4.1 combinacionesde cargas
Esta sección proporciona información de combinación de carga.
Tabla 6: Definiciones de combinación
Nombre de
combo
Tipo de combo caso Factor de
escala
DSTL1 Linear Add DEAD 1.400000
DSTL2 Linear Add DEAD 1.200000
DSTL2 VIVA DEL
TECHO
1.600000
DSTL2 VIVA MINIMA
REPARTIDA
1.600000
DSTL3 Linear Add DEAD 1.200000
DSTL3 VIVA DEL
TECHO
1.000000
DSTL3 VIVA MINIMA
REPARTIDA
1.000000
DSTL3 SISMO X 1.000000
DSTL4 Linear Add DEAD 1.200000
DSTL4 VIVA DEL
TECHO
1.000000
DSTL4 VIVA MINIMA
REPARTIDA
1.000000
DSTL4 SISMO Y 1.000000
DSTL5 Linear Add DEAD 0.900000
DSTL5 SISMO X 1.000000
DSTL6 Linear Add DEAD 0.900000
DSTL6 SISMO Y 1.000000
DSTL7 Linear Add DEAD 1.000000
DSTL8 Linear Add DEAD 1.000000
DSTL8 VIVA DEL
TECHO
1.000000
5. Resultadosde la estructura
Esta secciónproporcionalos resultadosde estructura,incluyendoelementostalescomo
períodosestructuralesylasreaccionesde base
7. Tabla 8: Participacion modal de la proporcion de masa
caso de salida Numero
de paso
Period UX UY UZ SumUX SumUY SumUZ
Sec
MODAL 9.000000 0.012923 1.305E-05 7.073E-04 1.147E-07 1.617E-05 0.93 0.73
MODAL 10.000000 0.011148 1.346E-03 6.185E-07 1.303E-06 1.362E-03 0.93 0.73
MODAL 11.000000 0.010745 7.489E-05 4.077E-06 1.924E-05 1.437E-03 0.93 0.73
MODAL 12.000000 0.010161 3.309E-06 1.829E-04 3.342E-04 1.440E-03 0.93 0.73
6.2 Racciones sobre la base
Tabla 9: Base Reacciones
Caso de salida Tipo de
paso
GlobalFX GlobalFY GlobalFZ GlobalMX GlobalMY GlobalMZ
Kgf Kgf Kgf Kgf-mm Kgf-mm Kgf-mm
DEAD 9.095E-12 2.911E-11 14251.15 2493999.39 -57005191. 8.708E-08
VIVA DEL
TECHO
4.547E-12 7.264E-12 3600.00 630000.00 -14400000.0 2.189E-08
VIVA MINIMA
REPARTIDA
5.457E-12 1.840E-11 9000.00 1575000.00 -36000000. 5.728E-08
SISMO X Max 1.101E-04 7.408E-06 3.071E-06 3.771E-02 5.08 0.30
SISMO Y Max 7.404E-06 5.904E-02 1.591E-03 14.84 6.37 235.82
6.3 Resultadosde las articulaciones
Esta secciónproporcionalosresultadosde conjuntos,incluyendoelementostales
como desplazamientosyreacciones.
Los desplazamientosconjuntos parte 1de 2
Joint OutputCase StepType U1 U2 U3 R1 R2
mm mm mm Radians Radians
1 DEAD 0.000000 0.000000 0.000000 0.000000 0.000000
1 VIVA DEL
TECHO
0.000000 0.000000 0.000000 0.000000 0.000000
1 VIVA MINIMA
REPARTIDA
0.000000 0.000000 0.000000 0.000000 0.000000
1 SISMO X Max 0.000000 0.000000 0.000000 0.000000 0.000000
1 SISMO Y Max 0.000000 0.000000 0.000000 0.000000 0.000000
2 DEAD 0.000000 0.000000 0.000000 0.000000 0.000000
2 VIVA DEL
TECHO
0.000000 0.000000 0.000000 0.000000 0.000000
2 VIVA MINIMA
REPARTIDA
0.000000 0.000000 0.000000 0.000000 0.000000
2 SISMO X Max 0.000000 0.000000 0.000000 0.000000 0.000000
2 SISMO Y Max 0.000000 0.000000 0.000000 0.000000 0.000000
5 DEAD -0.113071 0.193538 -0.382498 -0.000325 0.001076
5 VIVA DEL
TECHO
-0.028615 0.048908 -0.096679 -0.000082 0.000272
5 VIVA MINIMA
REPARTIDA
-0.071537 0.122271 -0.241697 -0.000206 0.000680
5 SISMO X Max 9.435E-09 2.661E-08 4.072E-08 4.458E-11 1.071E-10
5 SISMO Y Max 3.859E-07 0.000017 1.306E-06 2.377E-08 1.429E-09
7 DEAD -0.194953 0.352109 -0.907429 -0.000174 0.001294
8. Joint OutputCase StepType U1 U2 U3 R1 R2
mm mm mm Radians Radians
7 VIVA DEL
TECHO
-0.049349 0.089020 -0.229515 -0.000044 0.000328
7 VIVA MINIMA
REPARTIDA
-0.123373 0.222551 -0.573787 -0.000110 0.000819
7 SISMO X Max 1.526E-08 4.866E-08 9.027E-08 6.438E-11 1.144E-10
7 SISMO Y Max 8.179E-07 0.000059 2.437E-06 4.730E-08 2.278E-10
9 DEAD -0.243334 0.490550 -1.556592 -0.000108 0.001530
9 VIVA DEL
TECHO
-0.061613 0.124066 -0.393893 -0.000027 0.000388
9 VIVA MINIMA
REPARTIDA
-0.154033 0.310165 -0.984733 -0.000068 0.000969
9 SISMO X Max 1.699E-08 6.164E-08 1.450E-07 1.001E-10 1.161E-10
9 SISMO Y Max 1.193E-06 0.000115 3.335E-06 6.336E-08 1.857E-09
11 DEAD -0.263757 0.596508 -2.221367 -0.000049 0.001553
11 VIVA DEL
TECHO
-0.066801 0.150915 -0.562319 -0.000012 0.000394
11 VIVA MINIMA
REPARTIDA
-0.167003 0.377287 -1.405798 -0.000031 0.000984
11 SISMO X Max 1.531E-08 7.711E-08 1.901E-07 1.180E-10 8.846E-11
11 SISMO Y Max 1.438E-06 0.000176 3.937E-06 6.621E-08 2.410E-09
13 DEAD -0.259135 0.687205 -2.893044 -0.000087 0.001594
13 VIVA DEL
TECHO
-0.065645 0.173922 -0.732585 -0.000022 0.000404
13 VIVA MINIMA
REPARTIDA
-0.164112 0.434805 -1.831464 -0.000055 0.001011
13 SISMO X Max 1.088E-08 9.004E-08 2.220E-07 1.148E-10 5.381E-11
13 SISMO Y Max 1.534E-06 0.000236 4.400E-06 6.110E-08 3.102E-09
15 DEAD -0.234076 0.756637 -3.526169 -0.000056 0.001458
15 VIVA DEL
TECHO
-0.059308 0.191557 -0.893164 -0.000014 0.000370
15 VIVA MINIMA
REPARTIDA
-0.148270 0.478892 -2.232909 -0.000036 0.000925
15 SISMO X Max 4.762E-09 8.597E-08 2.335E-07 9.996E-11 1.012E-11
15 SISMO Y Max 1.484E-06 0.000289 4.738E-06 5.321E-08 2.700E-09
Desplazamientos conjuntos, Parte 2 de 2
Joint R3
Radians
7 0.000056
7 0.000141
7 6.852E-11
7 1.185E-07
9 0.000206
9 0.000052
9 0.000130
9 8.944E-11
9 1.390E-07
11 0.000151
11 0.000038
11 0.000096
11 8.779E-11
11 1.423E-07
13 0.000161
13 0.000041
13 0.000102