Physiological Support Division
9th Strategic Reconnaissance Wing
Beale AFB, California

 

"A Day in the Life of a PSD Technician"
by Kevin Svetcos, Beale AFB PSD Instructor

Photos as marked Courtesy Paul F. Crickmore
Author of "Lockheed SR-71, the Mach 3 Blackbird"


 

PSD Preflight Activity


Flight Day minus 1:

Preparations to launch an SR-71 aircraft began the day before.   There were always 2 techs assigned per ACM and one supervisor per launch, so that means four techs and a supervisor were assigned to each SR launch while only two and the supervisor for the U-2.  Half of the team would conduct pre-flight inspections on the suit and related components, while the other half inspected the parachute and seat kit.

Suit Pre-Flight Inspections

(Kevin Svetcos, Author of this article is shown below testing a pilot's suit)
(Photo courtesy Paul Crickmore)

Inspection of the suit consisted of a visual check of the entire suit for any obvious flaws or discrepancies, to ensure that parts were where they were supposed to be, and that there were no tears, gashes, etc., among other things.  Each crewmember had a card in a file that listed sizes of equipment, any personal preferences for things like face heat settings, personal equipment and where it was to be stored in the suit for the flight, and those items were noted and the requests met.  The entire suit was assembled, attached to testing equipment, pressurized, and the results were noted on the pre-flight check sheet.  If a test did not fall within the required parameters, then either adjustments or repairs were made until the results consistently fell within the parameters.  Every time a test was performed, the results were noted, and when ever the results did not meet specs, the test sheet was used later on as a history for trouble-shooting activities.   In the more extreme cases when results were consistently out of range, then the flier’s second suit was used and the primary was immediately taken to the suit maintenance section of the unit for attention.  It should be mentioned here that each ACM had one each helmet, one each pair of boots, two full pressure suits, two parachute harness assemblies and two sets of gloves. The helmet and gloves were inspected after the pressurized portion of the pre-flight was completed.  The communications systems were checked, the face heat system in the visor was checked, as well as the seal between the face cavity in the front of the helmet and the rest of the helmet.  After the helmet was completed, all items were returned to the storage area, and the parachute harness was checked.  It was checked to make sure there were no twists in the webbing and that all hardware was present and functional.  Another item checked on the harness were the water wings that were activated either by a manual cord or by a water sensing aneroid in the case of a parachute landing in water.  When all tests were completed, the paperwork for the suit was left with the suit for the next day’s preparations. (Seat kit and parachute pre-flight inspections)
On the other side of the equation, the seat kit and parachute was being checked as well.  Current inspections and packing schedules were checked on the chute along with the locator beacon and plunger, coke fittings used to attach to the harness and several tackings used to secure cords until they were (hopefully never) needed.  The seat kit was checked for physical integrity; no cracks in the plastic shell, O2 lanyards and hoses in place and safety wire secure, O2 bottles full and functional, and seat cushion in good condition. Finally, a communications (comm.) cord to connect the ACM to the aircraft’s communications system, and vent hose to connect them to the environmental systems were chosen and logged onto the pre-flight inspection sheet.  As with the suit, if there were any discrepancies at all in regards to the safety or security of any of the equipment, it was either repaired or taken out of service and replaced with an acceptable piece of equipment.  All items were stored together, waiting to be installed into the aircraft the following day.   During pre-flight inspections, it was not unheard of for a tech to set aside what was an otherwise perfectly operating piece of equipment if it did not “feel” or “look” right to them.  All anyone had to say at any point in any inspection was, “I don’t like it”, and it was out of service – and remained out of service – until further tests and inspections were run, absolutely no questions asked.  This was true for everyone from the most seasoned techs all the way to the newest trainee just learning the business of aircraft launch and recovery. (Suit Valves are checked for leakage. Airman Mitchell (Rt.) is shown assembling a pressure valve.) (Crickmore)


Flight Day:

Pre-Flight Preparations

(Photo Below - Habu's Tom Veltri and Duane Noll
receive pre-flight physicals. (Crickmore Photo)

The morning of the flight, the parachute, seat kit, comm. cord and vent hose were taken to the aircraft.  About 2 hours prior to take off, the suit was laid out in the suit up area:  the suit was set in front of the chair the crew member would be using while donning (putting on) the suit.  Arms and legs were pulled out as far as possible, the parachute harness was set out, boots, gloves, nylon glove inserts used not only for ease of putting on and taking off the gloves, but also for absorbing sweat, and the “spurs” the pilots wore on their boots as part of the egress equipment.  These will be covered later on.  While it was not a formal policy, the normal routine was that whoever pre-flighted the suit loaded the plane, and whoever pre-flighted the seat and chute laid out the suit in order to get “fresh eyes” on the equipment.  Of course, there were times when a person had to do both the load and layout if their partner was already involved in another flight and was unable to fulfill their usual obligations.  No matter what the case was, however, the supervisor always came through and checked the suit layout, and was present and involved from the time the crew member’s started getting dressed to the time the canopy was closed just before taxi.  What was a policy, however, was that when a cockpit was loaded or a suit laid out, the two techs performing these tasks would switch sides and double-check the other’s work from the first step to the last.  In the case of the cockpit loading, a checklist was always always ALWAYS present and referred to during installation and checks, even by those who had performed the same task literally hundreds of times before.  Unit pride was encouraged; self-pride was dealt with harshly.

When the crewmembers began getting ready to get dressed in their suits, they came down to the dressing room from the kitchen where they had their high protein/low residue pre-flight meal of steak and eggs.  The steak and eggs were a crucial part of the flight because of the high nutritional value it contained, which sustained the pilots for their long flights. (Right Photo - Crew Tom Veltri and Duane Noll have a high protein breakfast.) (Crickmore Photo.) This meal also was digested slower by the body, which in turn significantly extended the amount time between eating and the need to evacuate the bowels.  In the dressing room, they changed into a set of 100% cotton long underwear tops (a mock turtleneck) and bottoms, and socks.  Because of the length of some of the missions, the pilots sometimes wore a UCD (urine collection device) that had a tube that attached to a manually operated valve on the inside left leg.  On the suits worn by the SR crews, the hose connected to a bag (a.k.a. the "piddle pack") on the inside of the lower left leg their suit, while the U-2/TR-1 crews had an external hose that emptied into a container under the floorboard of the plane.  If at any time during the flight the ACM felt he had to relieve himself, he would simply inflate the suit a little to create an airflow, OPEN THE VALVE FIRST that would allow the flow of the urine to the bag, urinate, THEN close the valve again.  Before going out to get dressed, one of the PSD techs would take the crewmember’s blood pressure, pulse, temperature, their last meal’s content and time prior to the steak and eggs they just had, and their times to sleep and awake.  This was used by the flight doctors as a history should any of the ACs report any physiological incidents either during or following their flight.  It was at this time that they were asked if they wanted to take anything to drink or eat for the flight.  Drinks that were taken were usually Gatorade or water in special bottles for rehydration, and the food came packaged in aluminum toothpaste tubes with a special probe that would fit into a small port on the lower left side of the helmet (applesauce and butterscotch pudding were the most popular).

Suit-up and Systems Checks

Two PSD techs would assist in the suit-up.  When the crews were ready, they would come out and sit in the chairs behind their suits.  On occasion, there would be a tour going through PSD.  If this were the case during one of the times that a crew member was wearing a UCD, they would usually wear a bathrobe out and take it off while they were sitting in the chair due to the nature of the equipment.  The suit was a rear-entry suit, and the ACs literally stepped into them like they were stepping into a new skin.  Feet in first and connect the UCD if required, secured with a piece of electrical tape.  Next came the arms, then the head through the neck ring.  After that, they stood up and did some adjustments to get the suit to fall as comfortable as possible along their arms and legs, reaching in to adjust underwear or suit liners for comfort before having both of the heavy-duty zippers closed and snapped shut. (Left Photo - Colonel Jerry O'Malley, Wing Commander (1972-1973) is shown here with the bladder suit installed and closed up.)
 

Next came the harness.  It was nothing more than a torso suit with no legs or arms, but it did contain an intricate and purposeful maze of webbing designed to give the AC support in case of egress as well as comfort.  They stepped into it feet first, then arms, and then sat down.  By that time one of the PSD techs would be behind the AC and then grab them by the harness at the shoulders, then bounced up and down to ensure there was no slack in the harness.  It was hooked together and snugged up according to the pilot’s comfort, then the harness cover was zipped up and secured.  After that, the boots were put on, followed by the spurs. (Right Photo - Colonel Hal Confer, 9th SRW Wing Commander (1970-1972) gets adjustments to his outer suit.)
 

After that, the helmet was put on.  With standard helmets, the practice was to put it on from the back; but with these helmets, they were rolled on like a football helmet, chin first.  The neoprene rubber barrier that separated the face cavity from the rest of the suit was seated around the ACs face, then adjusted by a small wheel towards the back of the helmet, which helped keep their face snug up against the seal.  This part was crucial because keeping the face totally sealed off from the rest of the suit maintained a 100% O2 environment for the AC to breathe in and avoid hypoxia.  It was also important to maintain this separation because when the suit was fully inflated, the barometric equivalent (atmospheric pressure) that the crewmember was exposed to was still equal to being approximately at 32,000 ft., which is still very dangerous in regards to breathing and warding off hypoxia, or oxygen deprivation.  The separate face cavity allowed the ACM to maintain a 1-to-1 (ground level) pressure ratio while breathing, regardless of the pressure inside the suit. (Pilot Major Brian Shul is assisted by PSD Airman Mclean on his helmet. (Crickmore Photo)
 
 

The gloves were put on last, then locked to the suit with locking rings, and the rings in turn were covered by flaps secured by Velcro to ensure that they were not damaged or otherwise compromised by the ACs during the course of performing their duties in the cockpit.
After the dressing, they moved about 3 feet over and sat down in a recliner while the PSD techs hooked them up to testing equipment, and then the exact same tests were run on the suit as the day before while it was unoccupied.  One tech ran the systems tests and maintained constant communication with the crewmember, calling out the results of the tests as performed to the second tech, who would write down all readings and comments that were made. Again, results were noted and any discrepancies were identified and addressed, and yes, there was an occasion where the suit did not perform as it should have.  The backup was brought in, quickly pre-flighted and the AC had to undress and re-dress in the new suit – all without compromising the safety of the crew member or delaying the original take-off time.  Every step of the way from the very first foot into the suit to the very last communication check, everything is checked for comfort.  The most oft-used phrase during the entire process is, “How does that feel?”

During the pressure checks, the ACs lower and lock their visors to get a good seal and begin the flow of O2 through their helmets.  It is only after the systems checks are completed when the difference between the two aircraft is truly noticed.  After the SR crews are finished with their systems checks, then can open their visors again, but the U-2/TR-1 pilots must keep their visors down and locked to start their pre-breathe time.  All of the high-fliers had to pre-breathe 100% O2 for an hour before getting to altitude.  Because the U-2s climbed to their operational altitudes almost immediately after take off, they had to sit in the suit up room for almost 30 minutes before going out to the airplane.  The Sled jocks, however, did not have to lock their visors and breathe 100% until just before their safety pins were pulled from the aircraft’s egress systems.  This was because they had to meet up with on of the KC-135/Qs to top off their gas tank prior to climbing to altitude. (Left Photo - PSD performs suit check with RSO Noel Widdifield)
 

Aircraft Integration
While the crewmembers sat and relaxed before being brought out to the aircraft, two PSD techs went out ahead to the aircraft for a final check of the equipment, and placement of any food or drinks prior to hook up, while the other two techs prepared to escort the ACs to the plane in the unmistakable white and red PSD van.
(RSO Major Walt Watson (Right) gets the helmet chin tab adjusted to prevent the helmet rising during emergency inflation.) (Below, Pilot Major Tom Danielson and RSO Major Stan Gudmandson in the PSD mobile van enroute to the SR-71.) (Crickmore Photos)


 
 
 
 
 
 
 

When it was time, portable liquid O2 coolers were attached to the crew’s suits so they could remain cool.  When the crews got to the airplane, they would wait for the all-clear from their support crew and the plane’s crew chief before leaving the van and climbing down to entering the cockpit.
 

Once in, there would be a PSD tech on either side of the crewmember to make all the necessary attachments to the seat kit, communications, face heat and oxygen systems, parachute and egress systems. One of the egress items was the spurs mentioned previously.  Based on a ball-and-socket design much like the chain used for some key chains or on dog tags, there were two cables that were attached to retractable fixtures with a spring-loaded ball on one end and a take-up reel in the ejection seat itself.  The balls snapped into these sockets on the back of these spurs that were attached to the crew member’s boots.  This was so that if the AC had to eject from the plane, part of the sequence was that the take-up reel would wind up the cable, thereby bringing in the ACs feet close to the seat so they would leave the cockpit with their feet still attached to their bodies, and not ripped off and lying on the floor of the plane because they didn’t pull their feet back completely or in time.
 
 


Crew boarding the Blackbird

Once they have finished with their hookups and the ACs have verified proper function of oxygen, ventilation, face heat and communications, the techs would change places and read down the checklist for the double-checking of the hookup.  After this was done, the techs would go back to the vans and wait until just before taxi, at which time they would go up and pull the safety pins from the pilot’s main “D” ring seat egress, and the safety cap for the explosive charge contained in the parachute, and take them back to the van until the plane returned.  After that, the canopy was lowered and locked, and the plane aircrews made final preparations to fly off and help keep the world safe for democracy.  Two of the PSD techs would return to the unit in order to prepare for other flights if needed, while the other two and the supervisor would stay out on the flight line for support until the plane was airborne.  They would radio in to PSD ops when the plane was actually in the air so the flight time and anticipated recovery could be monitored. (Lockheed Photo)


SR-71 Launch at Beale AFB, California (Lockheed Photo)


"The Office" (USAF Photo)

              Recovery
To recover the aircraft, only one PSD tech was required per ACM, although if pressed and there were no other bodies available, one could do it.  The supervisor had the choice of either accompanying the recovery team to the flight line or meeting them at PSD.  The general practice but not the official rule was that whoever launched a plane recovered it. The recovery team would go out to the flight line about 10 minutes prior to its scheduled return to the area.  Please note here that the key word is “return” and not “land”.  On almost all training flights, the pilots would take time to practice their take-offs and landings.  Depending on who on the flight line one talked to, they would either hear these referred to as a  “touch-and-go”, or “crash-and-dash”.  After the plane finally landed and taxied in, PSD was on the how-down waiting for the pilots to open the cockpits so they could safety the seats and parachutes.
(Taxi in Photo above courtesy Lockheed; Photo below shows Senator Barry Goldwater after his Mach 3+ flight visiting with Kelly Johnson, the designer of the SR-71 and Chief Engineer of the Lockheed Skunk Works.) 
After the crew members exited the airplane, water bottles and tube food were gathered, the crews were escorted to the awaiting PSD van and the pilots were asked their maximum cabin pressure, time at altitude, if they used their UCD, and how the suits functioned.  Just like before, all this information was written on the flight sheets.  The O2 coolers were in the vans and hooked to the suits to help cool the crew members down. After getting back to the building, the suits were taken off in reverse order of how it was put on.  After doffing the suit, the harness was taken back and hung up where it came from, but the suit, helmet and gloves were taken to the pre-flight room and hooked onto a vent hose in order to dry the suit.  After the suit was completely dry, then the post-flight inspection was performed on the suit, which was the exact same as the pre-flight inspection.  If the ACM had no issues with the suit and it passed the post-flight, then it was returned to its storage unit, along with the helmet and boots, but if there were some issues identified, the suit was taken out of service until those issues could be properly addressed, verified and put back into service. While the timing for the downloading of the seat kit, parachute, comm. cord and vent hose was not as crucial as getting the air crews out, every effort was made to get them out as soon as possible. This was not only so that the ground crew could perform their duties, but also to try and avoid any potential damage to the equipment as well.  After getting back to the unit, the equipment followed the same basic procedure as the suit:  it went through the same inspection in the post-flight as in the pre-flight, and any and all issues were addressed and verified, and then returned to service.

And when the next day came, we did it all over again.

Author, Kevin Svetcos

(Photo, right: PSD crew with Pilot Major Adolphus Bledsoe shown wearing the dark brown pressure suit, Model S-1030. Suit was discontinued as it absorbed radiated heat. VIP riding in the "B" Model was Dr. Walter LaBerge (Lt.) and the Crew Chief shown here is SSgt Theodore Holmes in July 1974)



Go to the Next PSD Page
With 49 clickable thumbnail images with text of the suit-up of Pilot Major James Sullivan and RSO Noel Widdifield prior to the world record setting flight from New York to London, England in 1974.
URL: http://www.wvi.com/~sr71webmaster/psd02.html


Article Credit:
Author of this article:  Kevin Svetcos, Beale AFB Physiological Support Division Instructor. This article is copyrighted on March 11, 2001 by Kevin Svetcos. All rights reserved. Date of last revision is March 19, 2001.
For corrections or inquiry Email Kevin at:
ksvetcos@yahoo.com

Photo Credits:

Paul F. Crickmore has kindly granted permission to use his copyrighted photos on this web site. Those photos (as marked) may not be reproduced in any format without his express written permission. I highly recommend you purchase his book "Lockheed SR-71 The Mach 3 Blackbird" (The source for these web site photos).
ISBN # 1- 85532-712-0

In addition Paul has one of the greatest SR-71 books in print titled "SR-71 The Secret Missions Exposed", revised with 40 extra pages.

ISBN 1-84176-098-6
Both of these books are available in the USA, from Motor Books International, Osceola, WI.


Additional Photo Credits: Lockheed Martin Corporation, USAF and SR-71 Blackbirds website archives.

 

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