Free Republic
Browse · Search
News/Activism
Topics · Post Article

Skip to comments.

Air Force imagery confirms Columbia wing damaged
Spaceflightnow.com ^ | 02/07/03 | CRAIG COVAULT

Posted on 02/07/2003 4:30:37 AM PST by The Magical Mischief Tour

Air Force imagery confirms Columbia wing damaged BY CRAIG COVAULT AVIATION WEEK & SPACE TECHNOLOGY/aviationnow.com PUBLISHED HERE WITH PERMISSION Posted: February 7, 2003

High-resolution images taken from a ground-based Air Force tracking camera in southwestern U.S. show serious structural damage to the inboard leading edge of Columbia's left wing, as the crippled orbiter flew overhead about 60 sec. before the vehicle broke up over Texas killing the seven astronauts on board Feb. 1.

According to sources close to the investigation, the images, under analysis at the Johnson Space Center in Houston, show a jagged edge on the left inboard wing structure near where the wing begins to intersect the fuselage. They also show the orbiter's right aft yaw thrusters firing, trying to correct the vehicle's attitude that was being adversely affected by the left wing damage. Columbia's fuselage and right wing appear normal. Unlike the damaged and jagged left wing section, the right wing appears smooth along its entire length. The imagery is consistent with telemetry.

The ragged edge on the left leading edge, indicates that either a small structural breach -- such as a crack -- occurred, allowing the 2,500F reentry heating to erode additional structure there, or that a small portion of the leading edge fell off at that location.

Either way, the damage affected the vehicle's flying qualities as well as allowed hot gases to flow into critical wing structure -- a fatal combination.

It is possible, but yet not confirmed, that the impact of foam debris from the shuttle's external tank during launch could have played a role in damage to the wing leading edge, where the deformity appears in USAF imagery.

If that is confirmed by the independent investigation team, it would mean that, contrary to initial shuttle program analysis, the tank debris event at launch played a key role in the root cause of the accident.

Another key factor is that the leading edge of the shuttle wing where the jagged shape was photographed transitions from black thermal protection tiles to a much different mechanical system made of reinforced carbon-carbon material that is bolted on, rather than glued on as the tiles are.

This means that in addition to the possible failure of black tile at the point where the wing joins the fuselage, a failure involving the attachment mechanisms for the leading edge sections could also be a factor, either related or not to the debris impact. The actual front structure of a shuttle wing is flat. To provide aerodynamic shape and heat protection, each wing is fitted with 22 U-shaped reinforced carbon-carbon (RCC) leading-edge structures. The carbon material in the leading edge, as well as the orbiter nose cap, is designed to protect the shuttle from temperatures above 2,300F during reentry. Any breach of this leading-edge material would have catastrophic consequences.

The U-shaped RCC sections are attached to the wing "with a series of floating joints to reduce loading on the panels due to wing deflections," according to Boeing data on the attachment mechanism.

"The [critical heat protection] seal between each wing leading-edge panel is referred to as a 'tee' seal," according to Boeing, and are also made of a carbon material.

The tee seals allow lateral motion and thermal expansion differences between the carbon sections and sections of the orbiter wing that remain much cooler during reentry.

In addition to debris impact issues, investigators will likely examine whether any structural bending between the cooler wing structure and the more-than-2,000F leading edge sections could have played a role in the accident. There is insulation packed between the cooler wing structure and the bowl-shaped cavity formed by the carbon leading-edge sections.

The RCC leading-edge structures are bolted to the wing using Inconel fittings that attach to aluminum flanges on the front of the wing.

The initial NASA Mission Management Team (MMT) assessment of the debris impact made Jan. 18, two days after launch, noted "The strike appears to have occurred on or relatively close to the "wing glove" near the orbiter fuselage.

The term "wing glove" generally refers to the area where the RCC bolt-on material is closest to the fuselage. This is also the general area where USAF imagery shows structural damage.

The second MMT summary analyzing the debris hit was made on Jan. 20 and had no mention of the leading-edge wing glove area. That report was more focused on orbiter black tiles on the vehicle's belly. The third and final summary issued on Jan. 27 discusses the black tiles again, but also specifically says "Damage to the RCC [wing leading edge] should be limited to [its] coating only and have no mission impact." Investigators in Houston are trying to match the location of the debris impact with the jagged edge shown in the Air Force imagery.

Columbia reentry accident investigators are also trying to determine if, as in the case of the case of Challenger's accident 17 years ago, an undesirable materials characteristic noted on previous flights -- in this case the STS-112 separation of external tank insulation foam debris -- was misjudged by engineers as to its potential for harm, possibly by using analytical tools and information inadequate to truly identify and quantify the threat to the shuttle. As of late last week, NASA strongly asserted this was not the case, but intense analysis on that possibility continues.

The shuttle is now grounded indefinitely and the impact on major crew resupply and assembly flights to the International Space Station remain under intense review.

Killed in the accident were STS-107 Mission Commander USAF Col. Rick Husband; copilot Navy Cdr. William McCool; flight engineer, Kalpana Chawla; payload commander, USAF Lt. Col. Michael Anderson; mission specialist physician astronauts Navy Capt. Laurel Clark and Navy Capt. David Brown and Israeli Air Force Col. Ilan Ramon.

"We continue to recover crew remains and we are handling that process with the utmost care, the utmost respect and dignity," said Ronald Dittemore, shuttle program manager.

No matter what the investigations show, there are no apparent credible crew survival options for the failure Columbia experienced. With the ISS out of reach in a far different orbit, there were no credible rescue options if even if wing damage had been apparent before reentry -- which it was not.

If, in the midst of its 16-day flight, wing damage had been found to be dire, the only potential -- but still unlikely -- option would have been the formulation over several days by Mission Control of a profile that could have, perhaps, reduced heating on the damaged wing at the expense of the other wing for an unguided reentry, with scant hope the vehicle would remain controllable to about 40,000 ft., allowing for crew bailout over an ocean.

Reentry is a starkly unforgiving environment where three out of the four fatal manned space flight accidents over the last 35 years have occurred.

These include the Soyuz 1 reentry accident that killed cosmonaut Vladimir Komarov in 1967 and the 1971 Soyuz 11 reentry accident that killed three cosmonauts returning after the first long-duration stay on the Salyut 1 space station.

The only fatal launch accident has been Challenger in 1986, although Apollo astronauts Gus Grissom, Ed White and Roger Chaffee were killed when fire developed in their spacecraft during a launch pad test not involving launch.

No other accident in aviation history has been seen by so many eyewitnesses than the loss of Columbia -- visible in five states.

Telemetry and photographic analysis indicate the breakup of the historic orbiter took place as she slowed from Mach 20-to-18 across California, Nevada, Arizona and New Mexico with the loss of structural integrity 205,000 ft. over north central Texas where most of the debris fell.

The science-driven STS-107 crew was completing 16 days of complex work in their Spacehab Research Double module and were 16 min. from landing at Kennedy when lost. Landing was scheduled for 8:16 a.m. CST.

Abnormal telemetry events in the reentry began at 7:52 a.m. CST as the vehicle was crossing the coast north of San Francisco at 43 mi. alt., about Mach 20.

The orbiter at this time was in a 43-deg. right bank completing its initial bank maneuver to the south for initial energy dissipation and ranging toward the Kennedy runway still nearly 3,000 mi. away.

That initial bank had been as steep as about 80 deg. between Hawaii and the California coast, a normal flight path angle for the early part of the reentry. The abnormal events seen on orbiter telemetry in Houston indicate a slow penetration of reentry heat into the orbiter and damage on the wing, overpowering the flight control system. Key events were:

* 7:52 a.m. CST: Three left main landing gear brakeline temperatures show an unusual rise. "This was the first occurrence of a significant thermal event in the left wheel well," Dittemore said. Engineers do not believe the left wheel well was breached, but rather that hot gasses were somehow finding a flow path within the wing to reach the wheel well.

* 7:53 a.m. CST: A fourth left brakeline strut temperature measurement rose significantly -- about 30-40 deg. in 5 min.

* 7:54 a.m. CST: With the orbiter over eastern California and western Nevada, the mid-fuselage mold line where the left wing meets the fuselage showed an unusual temperature rise. The 60F rise over 5 min. was not dramatic, but showed that something was heating the wing fuselage interface area at this time. Wing leading edge and belly temperatures were over 2,000F. While the outside fuselage wall was heating, the inside wall remained cool as normal.

* 7:55 a.m. CST: A fifth left main gear temperature sensor showed an unusual rise.

* 7:57 a.m. CST: As Columbia was passing over Arizona and New Mexico, the orbiter's upper and lower left wing temperature sensors failed, probably indicating their lines had been cut. The orbiter was also rolling back to the left into about a 75-deg. left bank angle, again to dissipate energy and for navigation and guidance toward Runway 33 at Kennedy, then about 1,800 mi. away.

* 7:58 a.m. CST: Still over New Mexico, the elevons began to move to adjust orbiter roll axis trim, indicating an increase in drag on the left side of the vehicle. That could be indicative of "rough tile or missing tile but we are not sure," Dittemore said. At the same time, the elevons were reacting to increased drag on the left side of the vehicle, the left main landing gear tire pressures and wheel temperature measurements failed. This was indicative of a loss of the sensor, not the explosion or failure of the left main gear tires, Dittemore believes. The sensors were lost in a staggered fashion.

* 7:59 a.m. CST: Additional elevon motion is commanded by the flight control system to counteract right side drag. The drag was trying to roll the vehicle to the left, while the flight control system was commanding the elevons to roll it back to the right.

But the rate of left roll was beginning to overpower the elevons, so the control system fired two 870-lb. thrust right yaw thrusters to help maintain the proper flight path angle. The firing lasted 1.5 sec. and, along with the tire pressure data and elevon data, would have been noted by the pilots.

At about this time, the pilots made a short transmission that was clipped and essentially unintelligible

In Mission Control, astronaut Marine Lt. Col. Charles Hobaugh, the spacecraft communicator on reentry flight director Leroy Cain's team, radioed "Columbia we see your tire pressure [telemetry[ messages and we did not copy your last transmission."

One of the pilots then radioed "Roger," but appeared to be cut off in mid transmission by static. For a moment there was additional static and sounds similar to an open microphone on Columbia but no transmissions from the crew.

All data from the orbiter then stopped and the position plot display in Mission Control froze over Texas, although an additional 30 sec. of poor data may have been captured.

Controllers in Mission Control thought they were experiencing an unusual but non-critical data drop out. But they had also taken notice of the unusual buildup of sensor telemetry in the preceding few minutes.

About 3 min. after all data flow stopped, Hobaugh in mission control began transmitting in the blind to Columbia on the UHF backup radio system. "Columbia, Houston, UHF comm. check" he repeated every 15-30 sec., but to no avail. In central Texas, thousands of people at that moment were observing the orbiter break up at Mach 18.3 and 207,000 ft.

Milt Heflin, Chief of the Flight Director's office said he looked at the frozen data plots. "I and others stared at that for a long time because the tracking ended over Texas. It just stopped. It was was then that I reflected back on what I saw [in Mission Control] with Challenger."

The loss of Challenger occurred 17 years and four days before the loss of Columbia.

"Our landscape has changed," Heflin said. "The space flight business today is going to be much different than yesterday.

"It was different after the Apollo fire, it was different after Challenger."

Columbia, the first winged reusable manned spacecraft first launched in April 1981, was lost on her 28th mission on the 113th shuttle flight.


TOPICS: Front Page News; Government; News/Current Events
KEYWORDS: classicthread; hugh
Navigation: use the links below to view more comments.
first previous 1-20 ... 201-220221-240241-260 ... 321 next last
To: KC_for_Freedom; Gracey
True, but contractors are "scored" as to how well they have substituted from the bad list of chemicals to the "pc" list of chemicals. Many companies have management edicts to make that changeover 100%, since the environmental weenies claim that the substitutes are just as good as what they replace.

Bingo! NASA "Award Fees" determine whether the contractor makes a profit that year or not.

221 posted on 02/07/2003 12:05:50 PM PST by snopercod
[ Post Reply | Private Reply | To 89 | View Replies]

To: jlogajan
The video you are referring to was an out of focus condition where the shape of the video camera iris formed the shape of the bright object.

I'm not sure we're talking about the same video frame. I took another look at it and it appears to be in sharp focus. You can clearly see defined edges, as well as shadows in the right places on the belly of the orbiter.

The image on the frame is not symetrical, as it would be if it were an iris artifact.

222 posted on 02/07/2003 12:14:50 PM PST by snopercod
[ Post Reply | Private Reply | To 102 | View Replies]

To: The Magical Mischief Tour
I'd sure like to see these images. Let's hope they are released soon.
223 posted on 02/07/2003 12:20:37 PM PST by Fury
[ Post Reply | Private Reply | To 1 | View Replies]

To: Sacajaweau
Entry interface is considered to occur at 400,000 feet altitude approximately 4,400 nautical miles (5,063 statute miles) from the landing site and at approximately 25,000 feet per second velocity.

At 400,000 feet altitude, the orbiter is maneuvered to zero degrees roll and yaw (wings level) and at a predetermined angle of attack for entry. The angle of attack is 40 degrees. The flight control system issues the commands to roll, pitch and yaw reaction control system jets for rate damping.

The orbiter's speed brake is used below Mach 10 to induce a more positive downward elevator trim deflection. At approximately Mach 3.5, the rudder becomes activated, and the aft reaction control system yaw engines are deactivated at 45,000 feet.

Entry guidance must dissipate the tremendous amount of energy the orbiter possesses when it enters the Earth's atmosphere to assure that the orbiter does not either burn up (entry angle too steep) or skip out of the atmosphere (entry angle too shallow) and that the orbiter is properly positioned to reach the desired touchdown point.

During entry, energy is dissipated by the atmospheric drag on the orbiter's surface. Thus, descent rate and down ranging are controlled by bank angle. The steeper the bank angle, the greater the descent rate and the greater the drag. Conversely, the minimum drag attitude is wings level. Cross range is controlled by bank reversals.

The entry thermal control phase is designed to keep the backface temperatures within the design limits. A constant heating rate is established until below 19,000 feet per second.

The equilibrium glide phase shifts the orbiter from the rapidly increasing drag levels of the temperature control phase to the constant drag level of the constant drag phase. The equilibrium glide flight is defined as flight in which the flight path angle, the angle between the local horizontal and the local velocity vector, remains constant. Equilibrium glide flight provides the maximum downrange capability. It lasts until the drag acceleration reaches 33 feet per second squared.

In the transition phase, the angle of attack continues to ramp down, reaching the approximately 14-degree angle of attack at the entry Terminal Area Energy Management (TAEM) interface, at approximately 83,000 feet altitude, 2,500 feet per second, Mach 2.5 and 52 nautical miles (59 statute miles) from the landing runway. Control is then transferred to TAEM guidance.

During the entry phases described, the orbiter's roll commands keep the orbiter on the drag profile and control cross range.

224 posted on 02/07/2003 12:20:46 PM PST by snopercod
[ Post Reply | Private Reply | To 166 | View Replies]

To: kjam22
And you're serious???

Who's kidding who, anyway???

Stand up, get some oxygen to your brain...

Then try again.

225 posted on 02/07/2003 12:41:15 PM PST by Capitalist Eric
[ Post Reply | Private Reply | To 220 | View Replies]

To: Capitalist Eric
To suggest that there was several hundred miles per hour difference in speed between the foam and the shuttle is just not a serious idea. The distance from release point to impact point being 50 feet is a limiting factor. You really believe that the foam decelerated several hundred miles per hour in 50 feet??? In less than 1/6th of a second?
226 posted on 02/07/2003 12:55:08 PM PST by kjam22
[ Post Reply | Private Reply | To 225 | View Replies]

To: jlogajan
This the one you say is an artifact?


227 posted on 02/07/2003 12:59:02 PM PST by snopercod
[ Post Reply | Private Reply | To 102 | View Replies]

To: kjam22
You really believe that the foam decelerated several hundred miles per hour in 50 feet??? In less than 1/6th of a second?

I raised this line of reasoning in another thread. I assume it is part of the reason why NASA did not expect trouble, and why they are still looking for alternative explanations. It's pretty hard to make an effective bullet out of styrofoam, unless it's attached to ice.

228 posted on 02/07/2003 12:59:14 PM PST by js1138
[ Post Reply | Private Reply | To 226 | View Replies]

To: brityank
Thanks for the nomination! };^D)
229 posted on 02/07/2003 1:01:51 PM PST by RJayneJ (Are there any quilters out there?)
[ Post Reply | Private Reply | To 175 | View Replies]

To: Capitalist Eric
You're saying that the foam released from the booster, and decelerated so quickly that the shuttle rearended it at a speed that is several hundered miles per hour faster than the foam was traveling because of its deceleration. And the distance from release point to impact point is only 50 feet. And mathmatics tells us that to obtain that much difference in speed, that the foam had to have traveled the 50 feet from release point to impact point in less than 1/6th of a second.
230 posted on 02/07/2003 1:02:30 PM PST by kjam22
[ Post Reply | Private Reply | To 225 | View Replies]

To: js1138
Yep.... common sense has to come into the picture at some point.
231 posted on 02/07/2003 1:03:40 PM PST by kjam22
[ Post Reply | Private Reply | To 228 | View Replies]

To: snopercod
No (if that is what broke off), it did so before the orbiter turned sideways, which makes sense.

We now know factually that the rear starboard yaw thrusters activated before the mystery piece broke off, and that there was some sort of problem with them as reported by Dittemore. That possibly could have turned the orbiter sideways.

What sort of force do you figure broke off the vertical stab if it wasn't caused by a yawing force?

232 posted on 02/07/2003 1:08:58 PM PST by Moonman62
[ Post Reply | Private Reply | To 100 | View Replies]

To: The Magical Mischief Tour
Given the detailed telemetry concerning flight control surface and rocket firings to correct the reentry attitude, I wonder if NASA has reported if any unusual attitude corrections were noted after the foam impact after launch.
233 posted on 02/07/2003 1:11:13 PM PST by ampat
[ Post Reply | Private Reply | To 1 | View Replies]

To: null and void
Yes, but actualy the original Hornet was sunk by a Japanese torpedo shortly after the battle of Midway. Another carrier was named Hornet later but I do not recall when it was first commissioned.
234 posted on 02/07/2003 1:22:30 PM PST by Mat_Helm
[ Post Reply | Private Reply | To 195 | View Replies]

To: bvw
Get off your soapbox - if you're for environmental stuff, so be it. You can try to avoid any responsibility, but it won't work with me.

Yes, NASA made the decision; yes, NASA might have gotten an exception. However, that does not exempt the fact that an environmentally friendly and people killing material may have been used.
235 posted on 02/07/2003 1:28:08 PM PST by CyberAnt ( Yo! Syracuse)
[ Post Reply | Private Reply | To 148 | View Replies]

To: DonnerT
Hmmm. What happened to the 4:30 EST NASA briefing? Nothing on CSPAN or NASA TV. This should be the briefing with more technical data about the Air Force picture showing damage to the left wing.
236 posted on 02/07/2003 1:43:15 PM PST by Truth29
[ Post Reply | Private Reply | To 169 | View Replies]

To: kjam22
To suggest that there was several hundred miles per hour difference in speed between the foam and the shuttle is just not a serious idea.

Only if you don't understand the physics involved. That NASA estimates the delta-V at ~500 MPH would seem to indicate that they, too, grasp the physics I've already described better than you appear to...

The distance from release point to impact point being 50 feet is a limiting factor. You really believe that the foam decelerated several hundred miles per hour in 50 feet??? In less than 1/6th of a second?

The distance is not the "limiting" factor... There are several involved- surface area exposed to the full force of the air flow, the relatively low density of the material, the hardness of it, etc.

It's way too simplistic to ignore these things...

ONLY when you ignore the physics involved, does damage from the foam insulation appear remote (if not impossible). To anyone who does understand these issues, the chances go from "slim-to-none" to "quite possible" or even "probable," depending on who you ask...

My money has been- since I heard about the insulation hitting the wing- that this is the primary reason the Columbia was lost.

I get the same response from enviro-Nazi's from time to time, when they get on their soap-box about the long-lived radioactive isotopes associated with nuclear power... (My specialty happens to be nuclear power and robotics, not astrophysics...) Common misconceptions or a fundamantel ignorance of certain facts are far more interesting, than reality- which is why enviro-nuts are strictly anti-nuke... They simply fear (and therefore protest) something they obviously don't understand...

When you look at the big picture with regard to the shuttle... this is the only that makes sense... Everything points to this...

237 posted on 02/07/2003 1:44:20 PM PST by Capitalist Eric
[ Post Reply | Private Reply | To 226 | View Replies]

To: Capitalist Eric
You're saying that the foam slowed by several hundred miles per hour in less than 1/6th of a second. In fact to get to a 500 mile per hour difference it requires the foam to slow 500 miles per hour in less than 1/12th of a second. Nope... I don't believe that. And I don't think NASA believes it either. And what's more, the video doesn't support it. I think that is why they are looking at other options.
238 posted on 02/07/2003 1:51:14 PM PST by kjam22
[ Post Reply | Private Reply | To 237 | View Replies]

To: Mat_Helm
Damm! I hate it when facts get in the way of a good story...
239 posted on 02/07/2003 1:53:53 PM PST by null and void
[ Post Reply | Private Reply | To 234 | View Replies]

To: DoughtyOne
In the local Clear Lake area people that work for NASA are seen all over the place. Some of them have numerous indentification and or security badges/tags connected to string or ribbons around their necks. IE: taggers
240 posted on 02/07/2003 1:54:30 PM PST by isthisnickcool
[ Post Reply | Private Reply | To 210 | View Replies]


Navigation: use the links below to view more comments.
first previous 1-20 ... 201-220221-240241-260 ... 321 next last

Disclaimer: Opinions posted on Free Republic are those of the individual posters and do not necessarily represent the opinion of Free Republic or its management. All materials posted herein are protected by copyright law and the exemption for fair use of copyrighted works.

Free Republic
Browse · Search
News/Activism
Topics · Post Article

FreeRepublic, LLC, PO BOX 9771, FRESNO, CA 93794
FreeRepublic.com is powered by software copyright 2000-2008 John Robinson