Engineering Library: Difference between revisions

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'''This page contains a list of mostly mechanical engineering resources.'''
'''This page contains a list of mostly mechanical engineering resources.'''


Some resources contain a lot of technical detail. If you find yourself scratching your head, contact a relevant supplier for support. They typically have applications engineers with deep technical expertise to help answer questions quickly.
Some contain lots of technical detail. If you find yourself scratching your head, contact a relevant supplier for support. They typically have applications engineers with deep technical expertise to help answer questions quickly.


==Data and formulae==
==Design==
===Data and formulae===
* [https://www.schaeffler.com/remotemedien/media/_shared_media/08_media_library/01_publications/schaeffler_2/catalogue_1/downloads_6/stt_de_en.pdf Schaeffler Technical Pocket Guide], a reference manual for mechanical engineers with a beautiful layout.
* [https://www.schaeffler.com/remotemedien/media/_shared_media/08_media_library/01_publications/schaeffler_2/catalogue_1/downloads_6/stt_de_en.pdf Schaeffler Technical Pocket Guide], a reference manual for mechanical engineers with a beautiful layout.
* [https://www.comsol.com/multiphysics COMSOL Multiphysics Cyclopedia], an encyclopedia covering the theory behind engineering physics.
* [https://www.comsol.com/multiphysics COMSOL Multiphysics Cyclopedia], an encyclopedia covering the theory behind engineering physics.
* [https://roymech.org/ RoyMech website], a mechanical engineering catalogue put together by the late Roy Beardmore.
* [https://roymech.org/ RoyMech website], a mechanical engineering catalogue put together by the late Roy Beardmore.
 
===Dimensions and tolerancing===
==Machines and Mechanisms==
* [https://mae.ufl.edu/designlab/Lab%20Assignments/EML2322L-Tolerances.pdf Tolerances of Manufacturing Processes], a short guide explaining tolerances achievable using typical manufacturing processes. Consult your go-to manufacturer if you think your tolerances might be challenging.
* [https://us.misumi-ec.com/us/incadlibrary/ MISUMI application library], a database of ready-made machines and mechanisms.
* [https://youtube.com/playlist?list=PLtaR0lZhSyANYB0Xxb9OSp47pHuQmj3Ol Tim Hunkin's The Secret Life of Components], a YouTube playlist explaining basic mechanical components through practical demonstrations.
 
==Reverse Engineering==
* [https://youtube.com/@bigclivedotcom Big Clive's YouTube channel], a channel with teardowns of cheap and cheerful consumer products. The focus is on electronics, but includes some mechanical design too.
* [https://www.fictiv.com/teardowns Fictiv Teardowns], a catalogue of teardowns of high-end consumer products.
* [https://www.youtube.com/@arduinoversusevil2025 AvE's BOLTR series], a YouTube channel with a teardowns of mechanical hand tools. His BOLTR playlist doesn't include his recent releases, so scroll through his video uploads instead.
* [https://www.youtube.com/playlist?list=PLkiDlGyJnprewfFv2-IPZbc5tHbRqaAgN Munro Live Teardowns], a YouTube playlist covering teardowns of car components, with a focus on benchmarking and costing.
* [https://youtube.com/@WeberAuto WeberAuto], a YouTube channel with teardowns of car components, with a focus on technical detail for training automotive engineers.
 
==Dimensions and tolerancing==
* [https://mae.ufl.edu/designlab/Lab%20Assignments/EML2322L-Tolerances.pdf Tolerances of Manufacturing Processes], graphs and charts explaining typical tolerances achievable with different manufacturing processes.
* [https://www.gdandtbasics.com/gdt-symbols-chart/ GD&T chart], a well-illustrated chart explaining the different geometric tolerance types. Beware of subtle differences between ASME Y14.5 and ISO GPS.
* [https://www.gdandtbasics.com/gdt-symbols-chart/ GD&T chart], a well-illustrated chart explaining the different geometric tolerance types. Beware of subtle differences between ASME Y14.5 and ISO GPS.
* [https://us.misumi-ec.com/pdf/tech/mech/US2010_fa_p3539_3540.pdf Limits and Fits chart], a set of tables for identifying and specifying fits. Having a set of pin and ring gauges to hand is useful for getting a hands-on feel.
* [https://us.misumi-ec.com/pdf/tech/mech/US2010_fa_p3539_3540.pdf Limits and Fits chart], a set of tables for identifying and specifying fits. Having a set of pin and ring gauges to hand, which have varying clearances, is useful for getting a hands-on feel.
 
===Materials databases===
==Materials database==
* [https://www.ulprospector.com/ UL Prospector], a database for finding a material and its supplier.
* [https://www.ulprospector.com/ UL Prospector], a database for finding a material and its supplier.
* [https://www.matweb.com/ MatWeb], a database for finding material properties.
* [https://www.matweb.com/ MatWeb], a database for finding material properties.
* [https://www.totalmateria.com/ Total Materia], a database for finding more detailed and proprietary material property data, which might be useful for any detailed analytical calculations/FEA.
* [https://www.totalmateria.com/ Total Materia], a database for finding more detailed and proprietary material property data, which costs, but might be useful for detailed analytical calculations/FEA.
===Human Factors===
* [https://webarchive.nationalarchives.gov.uk/ukgwa/20021221085815/http://www.dti.gov.uk:80/homesafetynetwork/pg_rdata.htm, Strength Data for Design Safety - Phase 1] and [https://webarchive.nationalarchives.gov.uk/ukgwa/20060215100812/http://www.dti.gov.uk/homesafetynetwork/gh_rdata2.htm Strength Data for Design Safety - Phase 2], a set of reports with physical strength data to provide designers with ergonomics information for designing safe easy-to-use products.
* [https://www.fda.gov/regulatory-information/search-fda-guidance-documents/applying-human-factors-and-usability-engineering-medical-devices Applying Human Factors and Usability Engineering to Medical Devices], a guide written by the FDA specifically for medical device development, but whose techniques can be applied to all products in general.


==Fasteners==
==Component selection==
===Fasteners===
* [https://ntrs.nasa.gov/citations/19980040284 NASA Fastener Design Course], a comprehensive course covering all things fastener related, including '...materials, plantings and coatings, locking methods threads, joint stiffness, rivets, inserts, nut plates, thread lubricants, design criteria, etc.'
* [https://ntrs.nasa.gov/citations/19980040284 NASA Fastener Design Course], a comprehensive course covering all things fastener related, including '...materials, plantings and coatings, locking methods threads, joint stiffness, rivets, inserts, nut plates, thread lubricants, design criteria, etc.'
 
===Adhesives===
==Adhesives==
* [https://www.henkel-adhesives-selector.com/ Henkel Adhesive Selector], a tool for identifying an appropriate adhesive. Don't neglect surface preparation (cleaning/abrasion/priming).
* [https://www.henkel-adhesives-selector.com/ Henkel Adhesive Selector], a tool for identifying an appropriate adhesive.
===Seals===
 
==Seals==
* [https://jameswalker.canto.global/direct/document/1fark0b14t5vhe3bodvop9ga5k/J6CwAqqsVFc26VlJtpVC12-DUZI/original?content-type=application%2Fpdf&name=O-ring_guide.pdf James Walker O-ring Guide], a guide to sealing with O-rings. Follow these steps:
* [https://jameswalker.canto.global/direct/document/1fark0b14t5vhe3bodvop9ga5k/J6CwAqqsVFc26VlJtpVC12-DUZI/original?content-type=application%2Fpdf&name=O-ring_guide.pdf James Walker O-ring Guide], a guide to sealing with O-rings. Follow these steps:
# Review page 29 to determine the housing arrangement
# Review page 29 to determine the housing arrangement
# Use the charts to find an O-ring that fits your geometry
# Use the charts to find an O-ring that fits your geometry
# Flick between pages 29 and 30 to finalise the housing dimensions and tolerances
# Flick between pages 29 and 30 to finalise the housing dimensions and tolerances
: There are nuances when it comes to robust seals, so follow the guide as closely as possible.
: There are nuances when it comes to robust seals, so follow the guide as closely as possible. General tips:
** Choose as large a cross-section as possible t give yourself as wide a tolerance as possible for achieving a nominal squeeze.
** Radial seals are generally more robust than axial seals, and if using a radial seal, choose a piston seal over a rod seal as it's easier to machine and inspect a groove on the OD of a rod than on the ID of a bore.
** Grease the O-ring, even if it's a static seal, to ease assembly. It can also help to seal a gas against a surface finish which is not smooth enough (''vacuum grease'').
** Beware of hysteresis in dynamic applications. The greater the nominal squeeze, the greater the effect.
** Follow all the other recommendations in the design guide as closely as possible, not forgetting surface finish, lead-ins etc.


==Die Casting==
==Manufacturing methods==
* [https://cwmdiecast.com/design-center/design-guides/ Metal Die Casting Design Guides], by Chicago White Metal Casting
===Injection Moulding===
 
* [https://www.dupont.com/content/dam/dupont/amer/us/en/mobility/public/documents/en/General%20Design%20Principles%20Mod%201.pdf DuPont Engineering Polymers - General Design Principles]. * In the UK, DuPont also offers a complimentary day course which covers the basics of designing for injection moulding.
==Human Factors==
* [https://www.protolabs.com/en-gb/resources/design-aids/ Protolabs injection moulding design aids]. It includes  
* [https://webarchive.nationalarchives.gov.uk/ukgwa/20021221085815/http://www.dti.gov.uk:80/homesafetynetwork/pg_rdata.htm, Strength Data for design safety - Phase 1] and [https://webarchive.nationalarchives.gov.uk/ukgwa/20060215100812/http://www.dti.gov.uk/homesafetynetwork/gh_rdata2.htm Strength Data for Design Safety - Phase 2], a set of physical strength data to provide designers with ergonomics information for designing safer products
** An order page for a free 'design cube', an excellent tool for giving you a hands-on feel for the different features that are possible, and general design dos and don'ts.
 
** A material selection guide.
* [https://www.fda.gov/regulatory-information/search-fda-guidance-documents/applying-human-factors-and-usability-engineering-medical-devices Applying Human Factors and Usability Engineering to Medical Devices], a guide written by the FDA, but whose techniques can be applied to all products in general.
 
==Injection Moulding==
===DuPont===
* [https://www.dupont.com/content/dam/dupont/amer/us/en/mobility/public/documents/en/General%20Design%20Principles%20Mod%201.pdf DuPont Engineering Polymers - General Design Principles].
* DuPont also offers a complimentary day course which covers the basics of designing for injection moulding.
===Protolabs===
* [https://www.protolabs.com/en-gb/resources/design-aids/ Protolabs injection moulding design aids], which includes
** A design cube for a hands-on feel of the different features possible, and general dos and don'ts.
** A material selection guide
** An Injection Moulding for Dummies e-book.
** An Injection Moulding for Dummies e-book.
===Tangram Technology===
*[https://tangram.co.uk/wp-content/uploads/Plastics-Topics-Periodic-Table-Full-December-2021.pdf Periodic Table of Thermoplastics] by Tangram Technology.
*[https://tangram.co.uk/wp-content/uploads/Plastics-Topics-Periodic-Table-Full-December-2021.pdf Periodic Table of Thermoplastics]
===Die Casting===
* [https://cwmdiecast.com/design-center/design-guides/ Metal Die Casting Design Guides] by Chicago White Metal Casting.


==Databases==
==Inspiration and Learning==
===Mechanical Engineering 101===
* [https://youtube.com/playlist?list=PLtaR0lZhSyANYB0Xxb9OSp47pHuQmj3Ol Tim Hunkin's The Secret Life of Components], a YouTube playlist explaining basic mechanical components through practical demonstrations.
* [https://youtube.com/playlist?list=PLJryl8itrrymdlP9wqJVwKQ9S7YXFOJdZ Tarkka's Mechanical Engineering Design Basics], a YouTube playlist covering the fundamentals.
===Machines and Mechanisms===
* [https://us.misumi-ec.com/us/incadlibrary/ MISUMI application library], a database of ready-made machines and mechanisms.
* [https://youtube.com/@JaredOwen Jared Owen's YouTube channel], a series of beautiful 3D animations demonstrating the inner workings of complex mechanical assemblies.
* [https://youtube.com/@BranchEducation Branch Education YouTube channel], 3D animations showing the inner workings of mostly electronics.
===Reverse Engineering===
* [https://youtube.com/@bigclivedotcom Big Clive's YouTube channel], a channel with teardowns of cheap and cheerful consumer products. The focus is on electronics, but includes some mechanical design too.
* [https://www.fictiv.com/teardowns Fictiv Teardowns], a catalogue of teardowns of high-end consumer products.
* [https://www.youtube.com/@arduinoversusevil2025 AvE's BOLTR series], a YouTube channel with a teardowns of mechanical hand tools. His BOLTR playlist doesn't include his recent releases, so scroll through his video uploads instead.
* [https://www.youtube.com/playlist?list=PLkiDlGyJnprewfFv2-IPZbc5tHbRqaAgN Munro Live Teardowns], a YouTube playlist covering teardowns of car components, with a focus on benchmarking and costing.
* [https://youtube.com/@WeberAuto WeberAuto], a YouTube channel with teardowns of car components, with a focus on technical detail for training automotive engineers.
===Textbooks===
===Textbooks===
* [https://collection.bccampus.ca/ BC Open Collection], a library of free and open-source educational textbooks.
* [https://collection.bccampus.ca/ BC Open Collection], a library of free and open-source educational textbooks.
Line 70: Line 69:
: Alternatively, directly ask the author for a copy, through their university email or ResearchGate, or try and find it through an open-access publisher.
: Alternatively, directly ask the author for a copy, through their university email or ResearchGate, or try and find it through an open-access publisher.
* [https://ntrl.ntis.gov/NTRL/ National Technical Reports Library], a free open-access database of US-funded research.
* [https://ntrl.ntis.gov/NTRL/ National Technical Reports Library], a free open-access database of US-funded research.
==Other==
===Medical Device Development===
===Medical Device Development===
* [https://youtube.com/playlist?list=PLey4Qe-UxcxaB_nSeZK-osQTIcGt5WiRX CDRH Learn: Medical Device Education Basics 101], a YouTube series made by the FDA explaining medical device regulatory requirements.
* [https://www.youtube.com/@NelsonLabs/videos, Nelson Labs' YouTube channel], a series of videos from a microbiological test house, covering topics such as Cleaning, Disinfection and Sterilisation, and Biocompatibility testing.
* [https://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfMAUDE/search.CFM MAUDE database], an FDA database of suspected medical device-associated deaths, serious injuries and malfunctions.
* [https://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfMAUDE/search.CFM MAUDE database], an FDA database of suspected medical device-associated deaths, serious injuries and malfunctions.
* [https://youtube.com/@TheAnatomyLab Institute of Human Anatomy YouTube channel], a channel using real human cadavers to teach people about the body.
* [https://youtube.com/@TheAnatomyLab Institute of Human Anatomy YouTube channel], a channel using real human cadavers to teach people about the body.
===Microfluidics===
* [https://youtube.com/@MBLabWSU Microfluidics and BioInstrumentation Lab @ Wayne State University]
===NASA Technical Standards===
===NASA Technical Standards===
* [https://ntrs.nasa.gov/ NASA Technical Reports]
* [https://ntrs.nasa.gov/ NASA Technical Reports]
* [https://standards.nasa.gov/nasa-technical-standards NASA Technical Standards]
* [https://standards.nasa.gov/nasa-technical-standards NASA Technical Standards]
* [https://workmanship.nasa.gov/lib/insp/2%20books/frameset.html NASA Electronics Workmanship standards], graphical illustrations of acceptable and unacceptable electronics workmanship.
* [https://workmanship.nasa.gov/lib/insp/2%20books/frameset.html NASA Electronics Workmanship standards], graphical illustrations of acceptable and unacceptable electronics workmanship.
 
===DIY===
==Other==
* [https://wiki.diyfaq.org.uk UK DIY Wiki], a Wiki covering all things DIY.
* [https://wiki.diyfaq.org.uk UK DIY Wiki], a Wiki covering all things DIY.

Revision as of 20:26, 19 June 2023

This page contains a list of mostly mechanical engineering resources.

Some contain lots of technical detail. If you find yourself scratching your head, contact a relevant supplier for support. They typically have applications engineers with deep technical expertise to help answer questions quickly.

Design

Data and formulae

Dimensions and tolerancing

  • Tolerances of Manufacturing Processes, a short guide explaining tolerances achievable using typical manufacturing processes. Consult your go-to manufacturer if you think your tolerances might be challenging.
  • GD&T chart, a well-illustrated chart explaining the different geometric tolerance types. Beware of subtle differences between ASME Y14.5 and ISO GPS.
  • Limits and Fits chart, a set of tables for identifying and specifying fits. Having a set of pin and ring gauges to hand, which have varying clearances, is useful for getting a hands-on feel.

Materials databases

  • UL Prospector, a database for finding a material and its supplier.
  • MatWeb, a database for finding material properties.
  • Total Materia, a database for finding more detailed and proprietary material property data, which costs, but might be useful for detailed analytical calculations/FEA.

Human Factors

Component selection

Fasteners

  • NASA Fastener Design Course, a comprehensive course covering all things fastener related, including '...materials, plantings and coatings, locking methods threads, joint stiffness, rivets, inserts, nut plates, thread lubricants, design criteria, etc.'

Adhesives

  • Henkel Adhesive Selector, a tool for identifying an appropriate adhesive. Don't neglect surface preparation (cleaning/abrasion/priming).

Seals

  1. Review page 29 to determine the housing arrangement
  2. Use the charts to find an O-ring that fits your geometry
  3. Flick between pages 29 and 30 to finalise the housing dimensions and tolerances
There are nuances when it comes to robust seals, so follow the guide as closely as possible. General tips:
    • Choose as large a cross-section as possible t give yourself as wide a tolerance as possible for achieving a nominal squeeze.
    • Radial seals are generally more robust than axial seals, and if using a radial seal, choose a piston seal over a rod seal as it's easier to machine and inspect a groove on the OD of a rod than on the ID of a bore.
    • Grease the O-ring, even if it's a static seal, to ease assembly. It can also help to seal a gas against a surface finish which is not smooth enough (vacuum grease).
    • Beware of hysteresis in dynamic applications. The greater the nominal squeeze, the greater the effect.
    • Follow all the other recommendations in the design guide as closely as possible, not forgetting surface finish, lead-ins etc.

Manufacturing methods

Injection Moulding

Die Casting

Inspiration and Learning

Mechanical Engineering 101

Machines and Mechanisms

Reverse Engineering

  • Big Clive's YouTube channel, a channel with teardowns of cheap and cheerful consumer products. The focus is on electronics, but includes some mechanical design too.
  • Fictiv Teardowns, a catalogue of teardowns of high-end consumer products.
  • AvE's BOLTR series, a YouTube channel with a teardowns of mechanical hand tools. His BOLTR playlist doesn't include his recent releases, so scroll through his video uploads instead.
  • Munro Live Teardowns, a YouTube playlist covering teardowns of car components, with a focus on benchmarking and costing.
  • WeberAuto, a YouTube channel with teardowns of car components, with a focus on technical detail for training automotive engineers.

Textbooks

Academic Research

  • Sci-Hub, a database of free academic papers.
Although research is nearly always taxpayer-funded, with authors receiving no royalties, most papers remain stuck behind publishers' paywalls. Accessing Sci-Hub is illegal in many countries, so use a VPN if required.
Alternatively, directly ask the author for a copy, through their university email or ResearchGate, or try and find it through an open-access publisher.

Other

Medical Device Development

Microfluidics

NASA Technical Standards

DIY

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