Hard carbon coating film

The invention claimed is: 1. A hard carbon coating film formed at least on an outer peripheral sliding surface of a piston ring base and containing substantially no hydrogen, wherein the hard carbon coating film has an sp 2 content ratio, between graphite content in hard carbons of the hard carbon coating and diamond content of the hard carbon coating, ranging from 40% to 80% measured in a TEM-EELS spectrum where transmission electron microscopy (TEM) and electron energy-loss spectroscopy (EELS) are combined together, and an area ratio of contained macro particles on a surface of the hard carbon coating film ranges from 0.1% to 10.0%, the area ratio representing a ratio between area in a range from 280 to 310 eV of the TEM-EELS spectrum and a peak area around 285 eV of the TEM-EELS spectrum, and wherein the hard carbon coating film includes a surface layer nanolaminate portion having a striped coating film section on an outermost surface of the hard carbon coating by the TEM. 2. The hard carbon coating film according to claim 1 , wherein the film is formed in a step of changing an intensity of arc current, the step including a first film forming step of performing treatment at an arc current ranging from 60 to 100 A and a pulse bias voltage ranging from −2000 to −800 V, and a second film forming step of performing treatment at an arc current ranging from 100 to 150 A and a pulse bias voltage ranging from −2000 to −800 V. 3. The hard carbon coating film according to claim 1 , wherein the surface layer nanolaminate portion further includes an outermost surface film forming step of repeating a high voltage treatment at a pulse bias voltage ranging from −2000 to −800 V and a low voltage treatment at a pulse bias voltage ranging from −200 to −100 V multiple times at predetermined intervals after the second film forming step. 4. The hard carbon coating film according to claim 1 , wherein an underlayer including Ti, Cr or Si is provided under the hard carbon coating film. 5. The hard carbon coating film according to claim 4 , wherein a substrate layer including any of a PVD coating film, a Cr plating coating film and a nitrided layer is formed between the underlayer and the piston ring base. 6. The hard carbon coating film according to claim 1 , wherein the hard carbon coating film has a surface roughness of an initial wear height Rpk according to DIN 4776 standards of 0.2 μm or smaller. 7. The hard carbon coating film according to claim 1 , wherein the hard carbon coating film is formed to have a film thickness of at least 5 μm. 8. The hard carbon coating film according to claim 1 , wherein the hard carbon coating film is formed to have a film thickness of at least 0.5 μm and less than 5 μm.