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These are the user uploaded subtitles that are being translated: 1 00:00:02,482 --> 00:00:05,482 --captions by vitac-- Www.Vitac.Com 2 00:00:05,482 --> 00:00:08,482 Captions paid for by Discovery communications, inc. 3 00:00:22,344 --> 00:00:26,448 Narrator: Today on "How it's made"... 4 00:00:26,448 --> 00:00:28,241 Lighters... 5 00:00:32,379 --> 00:00:34,000 ...Fossils... 6 00:00:37,896 --> 00:00:39,793 ...Hockey pucks... 7 00:00:43,689 --> 00:00:45,620 ...And high-pressure cylinders. 8 00:00:52,758 --> 00:00:54,965 It's a case for combustion. 9 00:00:54,965 --> 00:00:57,586 Spin the wheel, And you have an instant flame. 10 00:00:57,586 --> 00:01:00,379 Flip the lid, And the flame is extinguished. 11 00:01:00,379 --> 00:01:03,965 A version of the lighter first Appeared in the 19th century. 12 00:01:03,965 --> 00:01:05,310 At the time, 13 00:01:05,310 --> 00:01:08,551 It was more of a conversation Piece than anything, 14 00:01:08,551 --> 00:01:11,517 A curiosity that received Plenty of interest. 15 00:01:18,724 --> 00:01:20,724 Lighters aren't a novelty Anymore, 16 00:01:20,724 --> 00:01:22,655 But they're still used Every day. 17 00:01:22,655 --> 00:01:24,172 To make lighter cases, 18 00:01:24,172 --> 00:01:27,793 A machine uncoils brass from A spool, pulling it to a press. 19 00:01:27,793 --> 00:01:30,310 The press stamps the brass Repeatedly 20 00:01:30,310 --> 00:01:33,896 To shape both the top And bottom parts of the case. 21 00:01:35,758 --> 00:01:37,275 A worker collects them 22 00:01:37,275 --> 00:01:39,896 And places them On a revolving table. 23 00:01:41,344 --> 00:01:44,000 Another worker slides on a hinge 24 00:01:44,000 --> 00:01:46,586 To link the top And bottom pieces. 25 00:01:53,586 --> 00:01:56,172 An electrode welds the hinge To the case. 26 00:01:56,172 --> 00:01:58,965 Then a mechanical arm Knocks them down a chute 27 00:01:58,965 --> 00:02:01,551 To a worker who inspects The welding job. 28 00:02:05,827 --> 00:02:08,931 As the cases move On a conveyor system, 29 00:02:08,931 --> 00:02:12,206 They get a quick buff To prepare them for plating. 30 00:02:14,965 --> 00:02:16,689 The lighter cases 31 00:02:16,689 --> 00:02:20,517 Are now plunged into a series Of washing solutions and rinses, 32 00:02:20,517 --> 00:02:23,965 Followed by a nickel solution... 33 00:02:23,965 --> 00:02:25,586 Then a chrome one. 34 00:02:25,586 --> 00:02:29,448 It's the finishing touch For the lighter cases. 35 00:02:32,000 --> 00:02:35,379 It's time to move on To the inner workings. 36 00:02:35,379 --> 00:02:39,344 A die shapes a piece of steel To make the inside cases. 37 00:02:43,448 --> 00:02:48,379 Mechanized arms then place A tube and plate in the case. 38 00:02:48,379 --> 00:02:50,379 The tube Will hold the flint stone, 39 00:02:50,379 --> 00:02:53,620 And the plate will form the top Of the inner case. 40 00:02:58,586 --> 00:03:01,137 Epoxy seals them in place, 41 00:03:01,137 --> 00:03:05,068 And the cases move through a Curing oven to harden the epoxy. 42 00:03:07,482 --> 00:03:10,137 A worker arranges A pile of flint wheels 43 00:03:10,137 --> 00:03:14,310 So that the teeth Are in the proper direction. 44 00:03:16,482 --> 00:03:20,206 Grippers load the flint wheels Into an assembly jig. 45 00:03:29,896 --> 00:03:34,586 These cams will eventually act As a catch for the lighter lid. 46 00:03:38,103 --> 00:03:42,034 A gripper places the cam in The jig beside the flint wheel. 47 00:03:46,137 --> 00:03:49,068 The assembly jig now receives Little brass eyelets 48 00:03:49,068 --> 00:03:51,206 Between the flint wheel And the cam. 49 00:04:00,413 --> 00:04:04,103 The machine slides the Inner case over the flint wheel, 50 00:04:04,103 --> 00:04:07,172 Cam, and eyelet. 51 00:04:07,172 --> 00:04:10,448 And an automated device Rivets it all together. 52 00:04:13,206 --> 00:04:17,172 A machine lowers a wick to the Eyelet and threads it through. 53 00:04:20,965 --> 00:04:25,344 Blades move in from the side And snip the wick. 54 00:04:28,793 --> 00:04:33,206 This machine stuffs pieces Of cotton into the inner case. 55 00:04:33,206 --> 00:04:35,068 The cotton will soak up 56 00:04:35,068 --> 00:04:38,448 And retain fuel When the consumer adds it later. 57 00:04:38,448 --> 00:04:41,482 Steel plungers tamp down The wick and cotton. 58 00:04:44,862 --> 00:04:48,655 Here a die punch Cuts a piece of felt to size. 59 00:04:53,586 --> 00:04:56,000 Automated arms pick up the felt 60 00:04:56,000 --> 00:04:58,965 And shove it into the top Of the inner case. 61 00:05:03,103 --> 00:05:05,862 Here grippers place A flint spring in the case 62 00:05:05,862 --> 00:05:07,482 Just over the flint stone. 63 00:05:10,172 --> 00:05:14,379 Pneumatic screwdrivers Drive the screw home. 64 00:05:17,689 --> 00:05:20,310 A rubber wheel spins the flint, 65 00:05:20,310 --> 00:05:23,827 And sparks fly as a light sensor Checks their intensity. 66 00:05:31,586 --> 00:05:33,310 After the flint check, 67 00:05:33,310 --> 00:05:36,758 Technicians install The inner unit in the case. 68 00:05:38,655 --> 00:05:41,620 They check the fit. 69 00:05:41,620 --> 00:05:44,586 They test the function. 70 00:05:44,586 --> 00:05:46,758 And they're off to be shipped. 71 00:05:59,758 --> 00:06:04,137 Narrator: it takes many hours of Work to make a fossil replica. 72 00:06:04,137 --> 00:06:06,862 Real dinosaur bones, Millions of years old, 73 00:06:06,862 --> 00:06:09,275 Are used to make Life-size renditions. 74 00:06:09,275 --> 00:06:11,448 You'll find These fossil facsimiles 75 00:06:11,448 --> 00:06:13,241 On display in museums. 76 00:06:13,241 --> 00:06:14,862 They're very exact, 77 00:06:14,862 --> 00:06:17,620 Almost indistinguishable From the real thing. 78 00:06:29,241 --> 00:06:33,586 The dinosaur looms large once Again, brought back to life 79 00:06:33,586 --> 00:06:36,793 Thanks to an evolution In casting techniques. 80 00:06:36,793 --> 00:06:39,344 Building these replicas is a job 81 00:06:39,344 --> 00:06:43,000 That can involve both high-tech Know-how and hands-on skill. 82 00:06:46,758 --> 00:06:51,000 They start with the real thing, An ancient fossil. 83 00:06:51,000 --> 00:06:54,275 This is a dinosaur's Upper jawbone. 84 00:06:54,275 --> 00:06:57,793 They laser-scan it, producing A three-dimensional image. 85 00:07:00,793 --> 00:07:03,793 The scanner feeds the image To a computer. 86 00:07:05,965 --> 00:07:08,862 Then it's time to go to print. 87 00:07:08,862 --> 00:07:11,620 But this isn't An ink-and-paper job. 88 00:07:11,620 --> 00:07:14,655 This tray is filled With plaster powder. 89 00:07:16,344 --> 00:07:20,206 The printer outlines the jawbone Shape with a liquid hardener. 90 00:07:20,206 --> 00:07:23,206 The result is this plaster cast Of the jawbone. 91 00:07:29,379 --> 00:07:32,896 There is a more traditional way To make a fossil replica. 92 00:07:32,896 --> 00:07:36,517 They arrange plywood around A fossil of this dinosaur foot. 93 00:07:36,517 --> 00:07:39,103 Then they lay sheets of clay On the wood 94 00:07:39,103 --> 00:07:41,551 And press it To the dinosaur bone. 95 00:07:45,827 --> 00:07:49,724 With a clay pick, they make A 90-degree angle at the bone 96 00:07:49,724 --> 00:07:51,620 To give it a clean line. 97 00:07:51,620 --> 00:07:53,241 Using more clay, 98 00:07:53,241 --> 00:07:57,103 They build a spout and a riser At one end of the bone. 99 00:07:57,103 --> 00:08:00,172 They etch an I.D. Number Into the clay. 100 00:08:02,000 --> 00:08:04,827 Then they paint liquid rubber Onto the fossil 101 00:08:04,827 --> 00:08:06,275 And the abutting clay. 102 00:08:17,034 --> 00:08:19,758 They place fiber-glass sheets On the rubber, 103 00:08:19,758 --> 00:08:22,655 Wetting it down With a polyester mix first. 104 00:08:22,655 --> 00:08:26,206 They work the fiber glass Into the shape of the fossil, 105 00:08:26,206 --> 00:08:28,379 Then paint a red gel coat Onto it. 106 00:08:28,379 --> 00:08:31,103 It's a color code To identify the species -- 107 00:08:31,103 --> 00:08:34,275 A duckbilled dinosaur Called a lambeosaurus. 108 00:08:41,896 --> 00:08:45,068 Now they have one side Of a mold. 109 00:08:45,068 --> 00:08:48,896 When both sides of the mold are Fabricated, they pair them up, 110 00:08:48,896 --> 00:08:51,344 And this fossil mold Is complete. 111 00:08:51,344 --> 00:08:54,827 The rubber layer inside Picks up the fossil's detail, 112 00:08:54,827 --> 00:08:57,827 While the outer fiber-glass one Will hold the rubber rigid 113 00:08:57,827 --> 00:09:01,413 As they pour a polyester- And-water mix into the spout. 114 00:09:06,793 --> 00:09:09,620 It takes 45 minutes to harden. 115 00:09:15,413 --> 00:09:18,448 And now it's time For the big reveal. 116 00:09:25,689 --> 00:09:28,275 It's an exact replica. 117 00:09:33,724 --> 00:09:36,172 Next they form Part of the skull. 118 00:09:36,172 --> 00:09:39,137 They make this part With hollow fiber glass 119 00:09:39,137 --> 00:09:41,034 Instead of solid polyester. 120 00:09:41,034 --> 00:09:44,103 This will ease the load On the steel framework later. 121 00:09:44,103 --> 00:09:47,137 All the larger bones are cast With hollow fiber glass 122 00:09:47,137 --> 00:09:48,793 Because of weight issues. 123 00:09:55,206 --> 00:09:57,344 This is a mastodon head. 124 00:10:01,793 --> 00:10:07,103 They mold up to 300 pieces to Produce these skeletal replicas. 125 00:10:12,827 --> 00:10:14,896 On one side of the skeleton, 126 00:10:14,896 --> 00:10:17,758 They literally flesh out Some details. 127 00:10:17,758 --> 00:10:20,034 They sculpt scales Onto a clay-like fill 128 00:10:20,034 --> 00:10:23,965 To demonstrate how a dinosaur Would look with some skin. 129 00:10:23,965 --> 00:10:26,586 The other side Remains bare bones 130 00:10:26,586 --> 00:10:30,137 To give the viewer An inside look. 131 00:10:30,137 --> 00:10:33,689 A little glue Completes the spine work. 132 00:10:33,689 --> 00:10:36,137 Then they mount the skull. 133 00:10:43,241 --> 00:10:48,000 When the front leg goes on, this 2-sided fossil is ready to go. 134 00:10:48,000 --> 00:10:50,586 It's a real museum piece. 135 00:11:06,931 --> 00:11:10,068 Narrator: early hockey pucks Were made of wood. 136 00:11:10,068 --> 00:11:11,655 But for informal games, 137 00:11:11,655 --> 00:11:14,344 Even objects like stones Would suffice. 138 00:11:14,344 --> 00:11:17,862 Eventually rubber became The puck material of choice. 139 00:11:17,862 --> 00:11:21,103 The modern puck is three inches Wide by one inch thick. 140 00:11:21,103 --> 00:11:23,586 Pucks are usually frozen Before games 141 00:11:23,586 --> 00:11:25,896 To reduce their bounce On the ice. 142 00:11:30,310 --> 00:11:32,103 11 different ingredients 143 00:11:32,103 --> 00:11:35,206 Go into making These rubber hockey pucks. 144 00:11:35,206 --> 00:11:37,724 The recipe begins With natural rubber. 145 00:11:37,724 --> 00:11:40,413 Two types of oil Make the rubber durable. 146 00:11:40,413 --> 00:11:44,034 Certain minerals act as curing Agents and antiaging agents. 147 00:11:44,034 --> 00:11:47,000 And a form of coal dust, Called carbon black, 148 00:11:47,000 --> 00:11:48,413 Serves as a filler. 149 00:11:48,413 --> 00:11:52,379 Workers feed the ingredients Into a preliminary mixer -- 150 00:11:52,379 --> 00:11:55,034 First the slabs Of natural rubber, 151 00:11:55,034 --> 00:11:58,931 Then antioxidants to lengthen The rubber's life-span, 152 00:11:58,931 --> 00:12:03,068 Then one type of oil to help Blend in the dry chemicals, 153 00:12:03,068 --> 00:12:07,000 Then another type to refine The rubber's rigidity level, 154 00:12:07,000 --> 00:12:10,586 Then additives such as Calcium carbonate and sulfur 155 00:12:10,586 --> 00:12:13,379 To help cure the rubber During the molding process, 156 00:12:13,379 --> 00:12:16,517 And finally, The carbon black filler. 157 00:12:21,000 --> 00:12:24,758 After 10 to 15 minutes Of this preliminary blending, 158 00:12:24,758 --> 00:12:28,586 The mixture goes down a chute And onto a conveyor belt, 159 00:12:28,586 --> 00:12:31,827 Which transports it to a machine Called the mill mixer. 160 00:12:31,827 --> 00:12:34,689 It will perform the final mix. 161 00:12:37,724 --> 00:12:40,862 At this point, Workers add more natural rubber. 162 00:12:51,000 --> 00:12:53,310 Then they add another, Harder rubber 163 00:12:53,310 --> 00:12:57,172 That will make the hockey pucks More resilient. 164 00:12:57,172 --> 00:13:00,551 The recipe is formulated To produce a very hard rubber, 165 00:13:00,551 --> 00:13:03,000 One that can stand up To the rigors 166 00:13:03,000 --> 00:13:05,241 Of repeated blows From a hockey stick. 167 00:13:05,241 --> 00:13:07,965 It's critical that The ingredients blend evenly. 168 00:13:07,965 --> 00:13:10,551 That's why workers Continually cut the rubber 169 00:13:10,551 --> 00:13:12,137 While it's mixing. 170 00:13:29,241 --> 00:13:31,137 In the company lab, 171 00:13:31,137 --> 00:13:36,172 Technicians evaluate a sample From each batch. 172 00:13:36,172 --> 00:13:38,413 This device Is called a rheometer. 173 00:13:38,413 --> 00:13:41,241 It analyzes what's called The curing curve -- 174 00:13:41,241 --> 00:13:43,931 How the rubber hardens And to what degree. 175 00:13:43,931 --> 00:13:47,655 A computer compares the curing Curve to the quality model. 176 00:13:47,655 --> 00:13:50,551 If they match, The batch gets the go-ahead. 177 00:13:52,965 --> 00:13:55,965 The rubber hasn't yet Gone through the curing process, 178 00:13:55,965 --> 00:13:58,000 So it's still malleable. 179 00:13:58,000 --> 00:14:01,310 An extrusion machine Squeezes it through a round die. 180 00:14:01,310 --> 00:14:06,310 This produces logs about 40 Inches long and 3 inches wide -- 181 00:14:06,310 --> 00:14:09,689 The exact diameter Of the hockey puck. 182 00:14:17,413 --> 00:14:20,620 The next machine slices each log Like a loaf of bread 183 00:14:20,620 --> 00:14:22,655 Into 39 pieces. 184 00:14:22,655 --> 00:14:25,344 Each piece is 1.1 inches thick. 185 00:14:27,551 --> 00:14:29,448 These pieces are called preforms 186 00:14:29,448 --> 00:14:32,965 Because at this stage they're Not quite fully formed pucks. 187 00:14:36,758 --> 00:14:39,344 Workers put them Into compression molds 188 00:14:39,344 --> 00:14:41,620 That look like Giant muffin pans. 189 00:14:41,620 --> 00:14:43,000 Each mold cavity 190 00:14:43,000 --> 00:14:46,000 Is the exact size Of the finished hockey puck. 191 00:14:58,793 --> 00:15:01,241 A cover goes on. 192 00:15:01,241 --> 00:15:03,965 Then the molds Go into a curing press, 193 00:15:03,965 --> 00:15:06,000 Which compresses the preforms 194 00:15:06,000 --> 00:15:08,862 And heats them To 300 degrees fahrenheit. 195 00:15:11,689 --> 00:15:14,413 It takes 18 minutes For the rubber to cure. 196 00:15:14,413 --> 00:15:17,000 The preforms come out As hockey pucks -- 197 00:15:17,000 --> 00:15:20,034 Rock-hard and 1/8 of an inch Thinner than before. 198 00:15:22,310 --> 00:15:24,758 They cool for 24 hours. 199 00:15:24,758 --> 00:15:27,275 During the compression phase, 200 00:15:27,275 --> 00:15:30,448 Excess rubber oozed out And stuck to the pucks, 201 00:15:30,448 --> 00:15:33,379 So workers run Each and every puck manually 202 00:15:33,379 --> 00:15:35,206 Through a trimming machine. 203 00:15:35,206 --> 00:15:38,068 There is excess rubber Stuck to the molds, as well. 204 00:15:38,068 --> 00:15:40,448 The factory scrapes it off, Grinds it up, 205 00:15:40,448 --> 00:15:43,689 And uses it as filler In subsequent batches. 206 00:15:47,931 --> 00:15:51,310 The mold embedded a dimple Pattern on the puck's edge. 207 00:15:51,310 --> 00:15:53,137 This texture creates friction 208 00:15:53,137 --> 00:15:55,448 Between the puck And hockey stick. 209 00:15:55,448 --> 00:15:57,896 The more friction, The better stickhandling 210 00:15:57,896 --> 00:16:01,034 And the greater control The players have. 211 00:16:14,000 --> 00:16:16,517 Narrator: High-pressure cylinders 212 00:16:16,517 --> 00:16:18,965 Are metal containers Designed for storing gases 213 00:16:18,965 --> 00:16:21,206 And for dispensing them At high pressure. 214 00:16:21,206 --> 00:16:23,517 Think fire extinguishers And oxygen tanks. 215 00:16:23,517 --> 00:16:25,034 The contents Are often flammable, 216 00:16:25,034 --> 00:16:26,379 So the challenge 217 00:16:26,379 --> 00:16:29,344 Is how to make these often Lifesaving cylinders safe 218 00:16:29,344 --> 00:16:32,034 Yet still easy enough To use. 219 00:16:39,172 --> 00:16:42,068 These cylinders Are made out of chromoly, 220 00:16:42,068 --> 00:16:45,379 A steel alloy containing Chromium and molybdenum. 221 00:16:45,379 --> 00:16:48,517 They start with disks that Have already been heat-treated 222 00:16:48,517 --> 00:16:52,241 At 1,300 degrees fahrenheit For 36 hours. 223 00:16:52,241 --> 00:16:55,689 Now they go into the first Of five hot chemical baths 224 00:16:55,689 --> 00:16:57,620 That will help the metal flex. 225 00:17:03,275 --> 00:17:07,689 After a quick drying period, Each disk moves over a die. 226 00:17:07,689 --> 00:17:10,413 This process Is known as deep drawing 227 00:17:10,413 --> 00:17:14,551 Because a series of machines Will gradually draw out the disk 228 00:17:14,551 --> 00:17:16,068 To the shape of a cylinder. 229 00:17:16,068 --> 00:17:18,551 A mandrel press Begins stretching the metal, 230 00:17:18,551 --> 00:17:20,620 Applying up to 800 tons Of force -- 231 00:17:20,620 --> 00:17:23,620 The weight Of two fully loaded jumbo jets. 232 00:17:25,172 --> 00:17:28,344 Shaping the cylinder From just one piece of metal 233 00:17:28,344 --> 00:17:32,000 Means it will be seamless, And that's a key safety feature. 234 00:17:32,000 --> 00:17:33,862 After the disk comes through, 235 00:17:33,862 --> 00:17:35,827 Steel jaws clamp down On the mandrel, 236 00:17:35,827 --> 00:17:38,103 And the cylinder slips off. 237 00:17:40,137 --> 00:17:43,068 Now another press Stretches it even more. 238 00:17:45,241 --> 00:17:48,344 This machine Applies 250 tons of force 239 00:17:48,344 --> 00:17:51,655 To continue forming The walls of the cylinder. 240 00:17:51,655 --> 00:17:55,034 That liquid is a coolant To prevent overheating. 241 00:17:55,034 --> 00:17:58,448 The cylinder goes through As many as three presses, 242 00:17:58,448 --> 00:18:01,034 Each one Stretching it another 60%. 243 00:18:03,137 --> 00:18:07,206 This press forms the closed Bottom end into a concave shape. 244 00:18:07,206 --> 00:18:09,862 That reinforces the base, Helping the cylinder 245 00:18:09,862 --> 00:18:12,482 Withstand up to a thousand times More pressure 246 00:18:12,482 --> 00:18:15,000 Than a can of cooking spray. 247 00:18:20,448 --> 00:18:24,000 A band saw now slices up to 4 inches off the other end, 248 00:18:24,000 --> 00:18:26,827 Which will become the top Of the cylinder. 249 00:18:29,241 --> 00:18:33,310 Next, a torch heats that end To 1,800 degrees fahrenheit 250 00:18:33,310 --> 00:18:35,172 For 90 seconds. 251 00:18:35,172 --> 00:18:37,517 In a process Called hot spinning, 252 00:18:37,517 --> 00:18:40,517 A worker then places The cylinder in a device 253 00:18:40,517 --> 00:18:43,310 That spins it at 1,000 rpm. 254 00:18:43,310 --> 00:18:45,413 As a torch maintains The temperature, 255 00:18:45,413 --> 00:18:48,172 The machine shapes the edge Of the searing-hot metal 256 00:18:48,172 --> 00:18:50,379 Into a curve. 257 00:18:52,137 --> 00:18:56,068 In this way, the machine Gradually closes off the top end 258 00:18:56,068 --> 00:19:00,034 And shapes two rounded areas Called the shoulder and neck. 259 00:19:00,034 --> 00:19:01,931 Making these areas curved 260 00:19:01,931 --> 00:19:05,172 Is the best way To contain pressurized gases. 261 00:19:05,172 --> 00:19:07,862 Curves spread out the stress On the metal. 262 00:19:07,862 --> 00:19:10,931 A sharp corner would focus The stress in one spot. 263 00:19:10,931 --> 00:19:14,482 The only exit for gases will be Through a valve at the top. 264 00:19:24,965 --> 00:19:27,551 Workers then place 18 cylinders 265 00:19:27,551 --> 00:19:31,689 In a furnace heated to more than 1,600 degrees fahrenheit. 266 00:19:31,689 --> 00:19:35,793 After 90 minutes, a machine then Dunks them in a chemical bath 267 00:19:35,793 --> 00:19:37,482 To cool for six minutes. 268 00:19:37,482 --> 00:19:40,517 The cylinders are then reheated To 1,200 degrees fahrenheit 269 00:19:40,517 --> 00:19:44,068 For 90 minutes, Then left to cool for two hours. 270 00:19:44,068 --> 00:19:46,482 These transitions Between hot and cold -- 271 00:19:46,482 --> 00:19:48,172 A process called tempering -- 272 00:19:48,172 --> 00:19:52,206 Strengthen the metal And make it somewhat flexible. 273 00:19:52,206 --> 00:19:56,068 A cutting tool carves open the Neck and cuts threads inside it. 274 00:19:56,068 --> 00:20:00,000 This provides the best seal when The valve screws into the neck. 275 00:20:00,000 --> 00:20:02,413 Workers Clean the cylinder's surface 276 00:20:02,413 --> 00:20:04,655 Using a process Called shotblasting. 277 00:20:04,655 --> 00:20:07,965 A machine shoots these tiny Steel pellets at the cylinders 278 00:20:07,965 --> 00:20:10,103 At very high speed. 279 00:20:15,275 --> 00:20:18,896 They test the cylinder By filling it with water. 280 00:20:18,896 --> 00:20:22,379 Then they seal it off And immerse it in water. 281 00:20:24,448 --> 00:20:27,689 The machine then adds more water To the cylinder 282 00:20:27,689 --> 00:20:31,172 And gauges how well it Withstands the extra pressure. 283 00:20:31,172 --> 00:20:33,965 They rinse the inside With hot water, 284 00:20:33,965 --> 00:20:37,724 Then dry and clean it By blowing in some purified air. 285 00:20:37,724 --> 00:20:41,344 Next, a hydraulic press indents The shoulder of the cylinder 286 00:20:41,344 --> 00:20:43,241 With legally required markings, 287 00:20:43,241 --> 00:20:46,482 Such as the manufacturing date And the serial number. 288 00:20:48,827 --> 00:20:52,620 A machine then stretches A steel collar over the neck. 289 00:20:55,206 --> 00:20:59,137 Another device, called a valver, Tightly screws on the valve, 290 00:20:59,137 --> 00:21:01,827 Creating a leakproof seal. 291 00:21:01,827 --> 00:21:03,758 After a trip to the paint shop, 292 00:21:03,758 --> 00:21:06,965 These high-pressure cylinders Are ready to be filled 293 00:21:06,965 --> 00:21:09,482 And keep it all under control. 294 00:21:17,931 --> 00:21:20,344 If you have any comments About the show, 295 00:21:20,344 --> 00:21:22,862 Or if you'd like to suggest Topics for future shows, 296 00:21:22,862 --> 00:21:25,068 Drop us a line at... 24182