Thanks: 0
Likes: 0
Dislikes: 0
-
Super Member
Re: What am I doing wrong?
I've never had a CG Hex pad come part from me,even with plenty of age of them.
I once ripped one but that was my fault, got too close to a shape edge.
Are they compeltyy drily after cleaning them?
I ask this because if still damp I could see a problem with heat and dampness.
-
Super Member
Re: What am I doing wrong?
Hex logic pads are pretty stout, I have never had an issue.😎
-
Super Member
Re: What am I doing wrong?
Totally agree with this assessment.
The Craftsman machine on the far left has a VERY low swing. I'm guessing anywhere from 3-5 mm. This particular tool accumulates much more product at it's center than the Porter Cable 7424xp. That Craftsman spins well, even on it's lowest speed setting, but doesn't seem to get the same level of correction as the PC - all factors being equal.
Another note, is that I don't usually get the center saturation on the 3401..
Originally Posted by Kevin Brown
Intriguing thread, the part about saturation at the center of the pad. Some thoughts (on the fly, so they may not lead to the correct conclusion).
At the dead-center of the pad, what is occurring during the polishing cycle?
To paint a clear picture for the first thought on the subject, let's exchange the pad, machine, and painted panel for a pencil and a sheet of sandpaper. If we were to place the sharpened tip of a pencil against a piece of sandpaper by grasping the stalk of the pencil between the palms of our hands, we could rapidly twist the pencil back and forth by repeatedly rolling the stalk between our palms. If the pencil tip was not allowed to move from its x-y position, we would eventually see lead grindings accumulate around the general vicinity of the lead.
The lack of any substantial lateral motion would result in an accumulation of the lead debris.
Machine stroke (or a lack thereof) can have a a dramatic effect on pad saturation at its center point.
Anyone that's ever used a ZOFRO polishing machine (Zero Offset Forced Rotation Orbital) is well aware of its propensity to accumulate debris and moisture at the center of the pad.
"What's that, you say...you don't know what a ZOFRO is? Oh goodness, forgive me! Being such a big-time proponent of orbital-action machines has caused me to assume that you think like me. A ZOFRO is also referred to as a ROTARY polisher..."
Back on track! Unless the rotary polisher is scuttled along at a rapid clip via the user's arm movement, the center of the pad will eventually load with and moisture and debris.
Turning the focus back onto random orbital machines: if we chose to minimize or eliminate backing plate rotation by utilizing a super-short stroke, the same sort of dynamic would occur. Taking things to extremes, if we were to use a machine featuring a very small stroke (.1mm orbit), and the machine were run at very low speed (1 RPM), and we held the machine in place (or moved it along very slowly), there would likely be little to no generation of backing plate rotation.
Assuming for a moment that there would be zero plate rotation, we would essentially have the makings of a super-short stroke, orbital-action polisher. Barring any substantial user-applied movement of the machine, the accumulation of polishing debris would likely occur wherever we happened to place buffing liquid onto the pad. If we avoid placing our buffing liquid at the center of the pad, then saturation of the center would not occur.
If this seems sensible (and the premise is accurate), then we begin to realize that there is no magic drawing power towards the center of the pad, but rather a lack of motion to assist the movement of polishing debris (abrasives, paint residue, and buffing fluids) away from the center of the pad.
Even with an abundance of backing plate rotation (such as 10-12 rotations per second, equalling 600-720 RPM), the center of the pad is still rotating too slowly to cause the elimination of polishing debris via reactionary centrifugal "force". In regards to any rotary-action or random orbital polisher, the center of the pad will always be the area of the pad that is traveling at the slowest velocity. It's therefore reasonable to conclude that if backing plate rotation promotes the removal of polishing debris and liquid from the pad, then compared to the rest of the pad... the migration of debris and liquid away from the center of the pad is less likely to occur.
Push, force, and roll debris off of the pad.
Anyone that has used a large stroke random orbital polisher has probably noticed that per application of buffing liquid (when using a foam pad), the time length of the buffing cycle can be extended (compared to a machine featuring a shorter stroke). In large part, this has to do with the extended motion, as the entire buffing pad is moving down a longer rotational path. Since the entire pad is traveling more distance per orbit, it is moving at a higher velocity. The added speed aids in increasing the force placed against stuck-on debris, so it is oftentimes more likely to be pushed or rolled off of the face of the pad.
Imagine using a random orbital polisher that featured an orbit diameter of one mile! Pretty silly, but by going to extremes, one could easily imagine that as the backing plate whizzed along such a gigantic orbital path, the pad would appear to be traveling in a straight line. With such a large, swooping motion and all that speed, it would become very difficult for debris and fluid to migrate toward (or accumulate at) the center of the pad.
Twisting + compression + absorption = saturation.
It's likely that a pad's center is the portion that remains in contact with the polishing surface the most. Additionally, it's likely that the center of the pad has more downward pressure and constant force placed upon it (compared to any other equivalent-sized portion of the pad). After all, when polishing panels that are flat, all portions of the pad are in contact with the panel. However, when polishing is taking place on convex or rounded panels, it's likely that the center of the pad is spending more time riding upon the crowned areas of the convex panel shapes.
With constant twisting and compression of the foam comes a capillary or wicking effect that causes moisture (and debris floating in the liquid) to flow into the pad. Over time, the center of the pad becomes saturated, (and any instilled abrasives can create a damming effect that assists in locking debris and moisture in place.
Interesting note: guys that utilize a polishing style in which they apply a bit of tilt to the machine tend to see ring-shaped wear pattern form directly below the edge of the backing plate (because the hard backing compresses the pad's foam, forcing it into the paint). If there happens to be any debris-laden or moisture-saturated pad sections, they are usually along either side of the ridge.
And that's the short of it.
-
Re: What am I doing wrong?
Thank you Kevin Brown for dispelling the myth of polish "migration"
Your explanation makes perfect sense
The proper term is now polish "accumulation", per your explanation
-
Re: What am I doing wrong?
As an additional question on residue management and length of stroke...
I was watching a 3M video on using the Trizact P3000 discs and they suggested that you get less accumulation of removed material clogging the paper when using a smaller stroke palm sander
Does anyone know why this is?
-
Re: What am I doing wrong?
Originally Posted by allenk4
As an additional question on residue management and length of stroke...
I was watching a 3M video on using the Trizact P3000 discs and they suggested that you get less accumulation of removed material clogging the paper when using a smaller stroke palm sander
Does anyone know why this is?
Without the reasoning behind a recommendation... you'll have to take their word for it.
I've laid out my reasoning, and am always up for a good discussion.
I will continue to use the largest stroke possible, when it makes sense for the task at hand.
-
Re: What am I doing wrong?
Originally Posted by Kevin Brown
Over time, the center of the pad becomes saturated, (and any instilled abrasives can create a damming effect that assists in locking debris and moisture in place.
That's what I've seen all of my life. Seems like product would sling outward and of course some does but a lot also builds-up in the center of the pad.
And a simple fix is to switch out to a fresh, clean dry pad as often as your budget will allow.
Originally Posted by Kevin Brown
And that's the short of it.
Your writing style is amazing Kevin.
-
Re: What am I doing wrong?
An update to my original post. I was for sure using too much product and over saturating the pad. I have since done a few more cars and haven't had the same issue since. Now i clean on the fly after 2 sections. And swap pads after each panel to give the pad a chance to cool.
-
Super Member
Re: What am I doing wrong?
Originally Posted by rogergoochman
An update to my original post. I was for sure using too much product and over saturating the pad. I have since done a few more cars and haven't had the same issue since. Now i clean on the fly after 2 sections. And swap pads after each panel to give the pad a chance to cool.
That is really good to hear!
-
Re: What am I doing wrong?
Originally Posted by rogergoochman
An update to my original post. I was for sure using too much product and over saturating the pad. I have since done a few more cars and haven't had the same issue since. Now i clean on the fly after 2 sections. And swap pads after each panel to give the pad a chance to cool.
Glad to hear that you have figured out what was going wrong. sometimes we just need to keep it simple.
Similar Threads
-
By AeroCleanse in forum Off-Topic
Replies: 9
Last Post: 04-02-2011, 09:22 PM
-
By CurlyCara in forum Auto Detailing 101
Replies: 7
Last Post: 03-19-2011, 11:44 AM
-
By TopHatChef in forum Auto Detailing 101
Replies: 14
Last Post: 02-20-2011, 10:01 PM
-
By oldmodman in forum Ask your detailing questions!
Replies: 4
Last Post: 04-14-2010, 09:08 AM
-
By jbss71 in forum Ask your detailing questions!
Replies: 9
Last Post: 03-22-2010, 05:45 PM
Members who have read this thread: 0
There are no members to list at the moment.
Posting Permissions
- You may not post new threads
- You may not post replies
- You may not post attachments
- You may not edit your posts
-
Forum Rules
|
S |
M |
T |
W |
T |
F |
S |
31 |
1
|
2
|
3
|
4
|
5
|
6
|
7
|
8
|
9
|
10
|
11
|
12
|
13
|
14
|
15
|
16
|
17
|
18
|
19
|
20
|
21
|
22
|
23
|
24
|
25
|
26
|
27
|
28
|
29
|
30
| 1 | 2 | 3 | 4 |
|
Bookmarks