The Lockheed SR-71 is a long-range, Mach 3 strategic reconnaissance aircraft that was developed from the prototypes of YF-12A and A-12 aircraft by the Lockheed Skunk Works. Unofficially named the “Blackbird” and called Habu (“snake”) by its crews, it is so fast that it can outrun any surface-to-air missile made. It is also called, as many fighter pilots refer to their aircraft – the Sled.
In April 1986, following an attack on American soldiers in a Berlin disco; President Reagan ordered the bombing of Muammar Qaddafi’s terrorist camps in Libya. My duty was to fly over Libya and take photos recording the damage our F-111s had inflicted. Qaddafi had established a “line of death” a territorial marking across the Gulf of Sidra, swearing to shoot down any intruder that crossed the boundary. On the morning of April 15, I rocketed past the line at 2,125 mph.
I was piloting the SR-71 spy plane, the world’s fastest jet, accompanied by Maj. Walter Watson, the aircraft’s reconnaissance systems officer (RSO). We had crossed into Libya and were approaching our final turn over the bleak desert landscape when Walter informed me that he was receiving missile launch signals. I quickly increased our speed, calculating the time it would take for the weapons – most likely SA-2 and SA-4 surface-to-air missiles capable of Mach 5 – to reach our altitude. I estimated that we could beat the rocket-powered missiles to the turn and stayed our course, betting our lives on the plane’s performance.
After several agonizingly long seconds, we made the turn and blasted toward the Mediterranean.
“You might want to pull it back,” Walter suggested.
The plane was flying a mile every 1.6 seconds, well above our Mach 3.2 limit. It was the fastest we would ever fly. I pulled the throttles to idle just south of Sicily, but we still overran the refueling tanker awaiting us over Gibraltar.
Scores of significant aircraft have been produced in the 100 years of flight, following the achievements of the Wright brothers, which we celebrate in December. Aircraft such as the Boeing 707, the F-86 Sabre Jet, and the P-51 Mustang are among the important machines that have flown our skies. But the SR-71, also known as the Blackbird, stands alone as a significant contributor to Cold War victory and as the fastest plane ever – and only 93 Air Force pilots ever steered the “sled,” as we called our aircraft.
As inconceivable as it may sound, I once discarded the plane. Literally. My first encounter with the SR-71 came when I was 10 years old in the form of molded black plastic in a Revell kit. Cementing together the long fuselage parts proved tricky, and my finished product looked less than menacing. Glue, oozing from the seams, discolored the black plastic. It seemed ungainly alongside the fighter planes in my collection, and I threw it away.
Twenty-nine years later, I stood awe-struck in a Beale Air Force Base hangar, staring at the very real SR-71 before me. I had applied to fly the world’s fastest jet and was receiving my first walk-around of our nation’s most prestigious aircraft. In my previous 13 years as an Air Force fighter pilot, I had never seen an aircraft with such presence. At 107 feet long, it appeared big, but far from ungainly.
Ironically, the plane was dripping, much like the misshapen model I had assembled in my youth. Fuel was seeping through the joints, raining down on the hangar floor. At Mach 3, the plane would expand several inches because of the severe temperature, which could heat the leading edge of the wing to 1,100 degrees. To prevent cracking, expansion joints had been built into the plane. Sealant resembling rubber glue covered the seams, but when the plan was subsonic, fuel would leak through the joints.
The SR-71 was the brainchild of Kelly Johnson, the famed Lockheed designer who created the P-38
, the F-104 Starfighter
, and the U-2
. After the Soviets shot down Gary Power
’s U-2 in 1960, Johnson began to develop an aircraft that would fly three miles higher and five times faster than the spy plane – and still be capable of photographing your license plate.
However, flying at 2,000 mph would create intense heat on the aircraft’s skin. Lockheed engineers used a titanium alloy to construct more than 90 percent of the SR-71, creating special tools and manufacturing procedures to hand-build each of the 40 planes. Special heat-resistant fuel, oil, and hydraulic fluids that would function at 85,000 feet and higher also had to be developed.
In 1962, the first Blackbird successfully flew, and in 1966, the same year I graduated from high school, the Air Force began flying operational SR-71 missions. I came to the program in 1983 with a sterling record and a recommendation from my commander, completing the week-long interview and meeting Walter, my partner for the next four years. He would ride four feet behind me, working all the cameras, radios, and electronic jamming equipment. I joked that if we were every captured, he was the spy and I was just the driver. He told me to keep the pointy end forward.
We trained for a year, flying out of Beale AFB in California, Kadena Airbase in Okinawa, and RAF Mildenhall in England. On a typical training mission, we would take off near Sacramento, refuel over Nevada, accelerate into Montana, obtain high Mach over Colorado, turn right over New Mexico, speed across the Los Angeles Basin, run up the West Coast, turn right at Seattle, then return to Beale. Total flight time: two hours and 40 minutes.
One day, high above Arizona, we were monitoring the radio traffic of all the mortal airplanes below is. First, a Cessna pilot asked the air traffic controllers to check his ground speed.
“Ninety knots,” ATC replied.
A twin Bonanza soon made the same request.
“One-twenty on the ground,” was the reply.
To our surprise, a Navy F-18 came over the radio with a ground speed check. I knew exactly what he was doing. Of course, he had a ground speed indicator in his cockpit, but he wanted to let all the bug-smashers in the valley know what real speed was.
“Dusty 52, we show you at 620 on the ground,” ATC responded.
The situation was too ripe. I heard the click of Walter’s mike button in the rear seat. In his most innocent voice, Walter startled the controller by asking for a ground speed check from 81,000 feet, clearly above controlled airspace.
In a cool, professional voice, the controller replied, “Aspen 20, I show you at 1,982 knots on the ground.” We did not hear another transmission on that frequency all the way to the coast.
The Blackbird always showed us something new, each aircraft possessing its own unique personality. In time we realized we were flying a national treasure. Traffic congregated near the airfield fences, because everyone wanted to see and hear the mighty SR-71. You could not be a part of this program and not come to love the airplane. Slowly, she revealed her secrets to us as we earned her trust.
One moonless night, while flying a routine training mission over the Pacific, I wondered what the sky would look like from 84,000 feet if the cockpit lighting were dark. While heading home on a straight course, I slowly turned down all of the lighting, reducing the glare and revealing the night sky. Within seconds, I turned the lights back up, fearful that the jet would know and somehow punish me. But my desire to see the sky overruled my caution, I dimmed the lighting again.
To my amazement, I saw a bright light outside my window. As my eyes adjusted to the view, I realized that the brilliance was the broad expanse of the Milky Way, now a gleaming stripe across the sky. Where dark spaces in the sky had usually existed, there were now dense clusters of sparkling stars. Shooting stars flashed across the canvas every few seconds. It was like a fireworks display with no sound.
I knew I had to get my eyes back on the instruments, and reluctantly I brought my attention back inside. To my surprise, with the cockpit lighting still off, I could see every gauge, lit by starlight. In the plane’s mirrors, I could see the eerie shine of my gold spacesuit incandescently illuminated in a celestial glow. I stole one last glance out the window. Despite our speed, we seemed still before the heavens humbled in the radiance of a much greater power. For those few moments, I felt a part of something far more significant than anything we were doing in the plane. The sharp sound of Walt’s voice on the radio brought me back to the tasks at hand as I prepared for our descent.
The SR-71 was an expensive aircraft to operate. The most significant cost was tanker support, and in 1990, confronted with budget cutbacks, the Air Force retired the SR-71. The Blackbird had outrun nearly 4,000 missiles, not once taking a scratch from enemy fire. On her final flight, the Blackbird, destined for the Smithsonian National Air and Space Museum, sped from Los Angeles to Washington in 64 minutes, averaging 2,145 mph and setting four speed records.
The SR-71 served six presidents, protecting America for a quarter of a century. Unbeknownst to most of the country, the plane flew over North Vietnam, Red China, North Korea, the Middle East, South Africa, Cuba, Nicaragua, Iran, Libya, and the Falkland Islands. On a weekly basis, the SR-71 kept watch over every Soviet nuclear submarine and mobile missile site, and all of their troop movements. It was a key factor in winning the Cold War.
I am proud to say I flew about 500 hours in this aircraft. I knew her well. She gave way to no plane, proudly dragging her sonic boom through enemy backyards with great impunity. She defeated every missile, outran every MiG, and always brought us home. In the first 100 years of manned flight, no aircraft was more remarkable.
With the Libyan coast fast approaching now, Walt asks for the third time, if I think the jet will get to speed and altitude we want in time. I tell him yes. I know he is concerned. He is dealing with the data; that’s what engineers do, and I am glad he is. But I have my hands on the stick and throttles and can feel the heart of a thoroughbred, running now with the power and perfection she was designed to possess. I also talk to her. Like the combat veteran she is, the jet senses the target area.
For the first time in two days, the inlet door closes flush and all vibration is gone. We’ve become so used to the constant buzzing that the jet sounds quiet now in comparison. The Mach correspondingly increases slightly and the jet is flying in that confidently smooth and steady style we have so often seen at these speeds. We reach our target altitude and speed, with five miles to spare. Entering the target area, in response to the jet’s newfound vitality, Walt says, “That’s amazing” and with my left hand pushing two throttles farther forward, I think to myself that there is much they don’t teach in engineering school.
Out my left window, Libya looks like one huge sandbox. A feature less brown terrain stretches all the way to horizon. There is no sign of any activity. Then Walt tells me that he is getting lots of electronic signals, and they are not the friendly kind. The jet is performing perfectly now, flying better than she has in weeks. She seems to know where she is. She likes the high Mach, as we penetrate deeper into Libyan airspace. Leaving the footprint of our sonic boom across Benghazi, I sit motionless, with stilled hands on throttles and the pitch control, my eyes glued to the gauges.
Only the Mach indicator is moving, steadily increasing in hundredths, in a rhythmic consistency similar to the long distance runner who has caught his second wind and picked up the pace. The jet was made for this kind of performance and she wasn’t about to let an errant inlet door make her miss her show. With the power of forty locomotives, we puncture the quiet African sky and continue farther south across a bleak landscape.
Walt continues to update me with numerous reactions he sees on the DEF panel. He is receiving missile-tracking signals. With each mile we traverse, every two seconds, I become more uncomfortable driving deeper into this barren and hostile land. I am glad the DEF panel is not in the front seat. It would be a big distraction now, seeing the lights flashing. In contrast, my cockpit is “quiet” as the jet purrs and relishes her newfound strength, continuing to slowly accelerate.
The spikes are full aft now, tucked twenty-six inches deep into the nacelles. With all inlet doors tightly shut, at 3.24 Mach, the J-58s more like ramjets now, gulping 100,000 cubic feet of air per second. We are a roaring express now, and as we roll through the enemy’s backyard, I hope our speed continues to defeat the missile radars below. We are approaching a turn, and this is good. It will only make it more difficult for any launched missile to solve the solution for hitting our aircraft.
I push the speed up at Walt’s request. The jet does not skip a beat, nothing fluctuates, and the cameras have a rock steady platform. Walt received missile launch signals. Before he can say anything else, my left hand instinctively moves the throttles yet farther forward. My eyes are glued to temperature gauges now, as I know the jet will willingly go to speeds that can harm her. The temps are relatively cool and from all the warm temps we’ve encountered thus far, this surprises me but then, it really doesn’t surprise me. Mach 3.31 and Walt are quiet for the moment.
I moved my gloved finder across the small silver wheel on the autopilot panel, which controls the aircraft’s pitch. With the deft feel known to Swiss watchmakers, surgeons, and “dinosaurs” (old-time pilots who not only fly an airplane but “feel it”), I rotate the pitch wheel somewhere between one-sixteenth and one-eighth inch location, a position which yields the 500-foot-per-minute climb I desire. The jet raises her nose one-sixth a degree and knows I’ll push her higher as she goes faster. The Mach continues to rise, but during this segment of our route, I am in no mood to pull throttles back.
Walt’s voice pierces the quiet of my cockpit with the news of more missile launch signals. The gravity of Walter’s voice tells me that he believes the signals to be a more valid threat than the others. Within seconds he tells me to “push it up” and I firmly press both throttles against their stops. For the next few seconds, I will let the jet go as fast as she wants. A final turn is coming up and we both know that if we can hit that turn at this speed, we most likely will defeat any missiles. We are not there yet, though, and I’m wondering if Walt will call for a defensive turn off our course.
With no words spoken, I sense Walter is thinking in concert with me about maintaining our programmed course. To keep from worrying, I glance outside, wondering if I’ll be able to visually pick up a missile aimed at us. Odd are the thoughts that wander through one’s mind in times like these. I found myself recalling the words of former SR-71 pilots who were fired upon while flying missions over North Vietnam. They said the few errant missile detonations they were able to observe from the cockpit looked like implosions rather than explosions. This was due to the great speed at which the jet was hurling away from the exploding missile.
I see nothing outside except the endless expanse of a steel blue sky and the broad patch of tan earth far below. I have only had my eyes out of the cockpit for seconds, but it seems like many minutes since I have last checked the gauges inside. Returning my attention inward, I glance first at the miles counter telling me how many more to go, until we can start our turn. Then I note the Mach, and passing beyond 3.45, I realize that Walter and I have attained new personal records. The Mach continues to increase. The ride is incredibly smooth.
There seems to be a confirmed trust now, between the jet; and she will not hesitate to deliver whatever speed we need, and I can count on no problems with the inlets. Walt and I are ultimately depending on the jet now – more so than normal – and she seems to know it. The cooler outside temperature have awaked the spirit born into her years ago, when men dedicated to excellence took the time and care to build her well. With spikes and doors as tight as they can get, we are racing against the time it could take a missile to reach our altitude.
It is a race this jet will not let us lose. The Mach eases to 3.5 as we crest 80,000 feet. We are a bullet now – except faster. We hit the turn, and I feel some relief as our nose swings away from a country we have seen quite enough of. Screaming past Tripoli, our phenomenal speed continues to rise, and the screaming Sled pummels the enemy one more time, laying down a parting sonic boom. In seconds, we can see nothing but the expansive blue of the Mediterranean. I realize that I still have my left hand full forward and we’re continuing to rocket along in maximum afterburner.
The TDI now shows us Mach numbers, not only new to our experience but flat out scary. Walt says the DEF panel is now quiet and I know it is time to reduce our incredible speed. I pull the throttles to the min ‘burner range and the jet still doesn’t know to slow down. Normally the Mach would be affected immediately, when making such a large throttle movement. But for just a few moments old 960 just sat out there at the high Mach, she seemed to love and like the proud Sled she was, only began to slow when we were well out of danger. I loved that jet.
Myth Blaster Verdict: This story is partly TRUE, however it is from a copyrighted story of a real SR-71 pilot and Vietnam fighter pilot veteran by the name of Brian Shul
, (who has not been contacted as of this writing) author of Sled Driver
, and was available in a limited edition. I do not know whether Gene Winfield, who passed this around, is a veteran or not, but he and others failed to give the author his credit due or possile changed the original (See first comment below). The limited edition of the book was published in honor of the Centennial of Flight Commemoration of 100 years since the Wright Brothers flew their first from in 1903 to 2003. The limited edition is available at Amazon starting at $299.95 (hardcover) in the new and used section. There are only four books left, so if you want a copy for your library – better get it while they last. The original price for this book was $427 in hardbound edition.The story has not been verified as to what parts or part of it actually is out of Brian Shul’s book – will keep you posted. Waiting for contact with Brian Shul himself. As far as I can determine, Revell made the first SR-71 model in 1969 (it flew for first time in 1964). The verdict wording of “true” is changed because of confusion as to how much of the email “transcription” is really the words of Brian Shul. (11-24-2007)
Lighthouse Journal 
FYI a high powered rifle bullet is much faster than 1600 feet a second a 110 grain 30-06 bullet will travel 3,230 FPS with 52.7 grains of Winchester 748 and a 55 grain 243 bullet with 52.5 grains of H414 should go 4,054 FPS. It's hard to get bullets faster than 5000 FPS because of the slow explsoive speed of gunpowder.