I am going to be a bit busy today in the rush to get closer to finding our hardpoints! Please please let me know if there is anything I should be clearer on - some of these tasks are urging you to begin researching and understanding things that most of the current members do not really even have a great grasp on so let us know if I can help guide your learning.
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Make progress on your master model - then start making the parts for it
if you would like to because you think it would benefit you / you didnt get to complete it as well as you would have liked then -
Finish SRR if you have not - take notes if you must
review the questions that were brought up during the suspension portion
work on the model mania cading
watch the bolted joints video assigned if not have alrdy - take notes
watch parra lectures recorded - notes
make sure you can calculate the radial loads on the bearing - Harshit talked about it at dyn meeting
Carter:
https://docs.google.com/document/d/1PofRdyPQn6Ggvkay0szYLhfokKcrGXXy2nZMPqfmC14/edit?usp=sharing (I can put the summaries for each part in here but this doc has all my stuff so far)
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Specializing in new gen: vehicle dynamics
what is our ideal degree roll/g lat acceleration aka roll gradient - how relevant is it for solar car and how can we consider it when designing?
bump steer x steering members - how can suspension help mitigate this
caster x kingpin angle relationship - what do we want to optimize for and what are the different effects to our vehicle dyn that can be achieved from adjustments?
explore vsusp and kinematics software options - take notes please I want to know too!
La’akea:
work on the reference sketch / master model and we will make sure that you understand how and how to make you first part using it (Had to start over because the my control arm lengths made no sense for any decent model, have a few questions I want to go over because I am a bit confused)
may meet with composite / TRAVEL TO PICKLE in the last half of workday to see layup / testing process
Specializing in new gen: composite integration and pushrods (Working on this week, not much progress so far as school load has been heavy)
understand the loads in the pushrods, what kind of inserts can we use?
radial load calculations on the rod ends at either end of the pushrods - benefit from doing the bearing calculations
understand composites and MATERIALS - why would we use CF instead of steel - why would we use steel instead of aluminum? - in what loading conditions are these materials strongest and thus when should we use them in what components?
Oliver:
Research manufacturing methods for control arms and methods of bearing inserts - staking or internally grooving for ret rings (update -hardly was able to get started last workday because I was mostly just working on the starter project, my goal currently is to have the starter project finished before if not during the workday so that I can begin doing some more research on this stuff).going to start researching this week)
begin CADing a control arm for Daybreak that is 2 inches longer than the previous and can house a retaining ring (Im gonna test out something on the starter project. Once I do more research then I will jump into a cad with just the control arms.)
or can be staked if you understand enough about it
read the thread in general slack dyn-collab where we talk about staking bearings
the current daybreak CAs are aluminum waterjetted with three rodends - you can try to make the same type of aluminum waterjetted with housing a bearing - I started on front upper
but look at the uploaded pics of other teams control arms (solar cars in particular) and see if there are other reliable and manufacturable options - steel tubular may be too difficult bc of how short they still are and figuring out how to insert the rod ends in that case
Specializing in manufacturing and daybreak:
bearing calculations, machining, control arms!
loads on control arms, manufacturing methods for control arms, methods of bearing retaining
Machining and manufacturing fundamentals - feeds and speeds, tooling, tolerancing
Manas:
Meet with jonathan, and a frame member to talk about your plans for the trailing arm as well as what you guys have learned about it overall
if you guys need to - write out a plan and coordinate w each other on what resources you will look at and what tasks or projects you think you might be taking to model a trailing arm suspension
Met with Jonathan, compared and exchanged resources we found. Didn’t create a plan moving forward, hopefully will do that on Thursday.
If you have a good idea of trailing arm mechanics - look a the dynatune manuals for trailing arm - I havent discerned if it is worth is for us to obtain dynatune because it is very hard to use SO I want you to read the manual after understanding what you are optimizing for in a trailing arm and see if dynatune trailing arm would be useful, useable, and addresses all our needs
Didn’t really work on it too much, the documentation was so confusing. I did find a different software that supports trailing arm suspension, but it seems and janky and not user friendly. Will research more.
Specializing in trailing arm and daybreak
hardpoints for trailing arm,
Didn’t work on this. Seems like a later problem 😭
shock to be used in trailing arm - coil, travel needed?, any specific spring rate or stiffness recommended for a rear 1 wheel trailing arm?
I found a few good articles about the characteristics. I will take notes and review with everyone on workday.
overall architecture of a trailing arm
Same, I will read research articles.
compare trailing arm to swing arm - what are the differences? pros, cons? - this was hard for me to find resources on so do your best to collect some resources
Simple trailing arm is better imo. Swing arm is better at handling lateral forces but is much heavier and I don't think they’re that much of a concern for our car. Trailing arm only moves in one plane, much much lighter and simpler to design and preferred by most teams.
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